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Material:Inner Liner: Made from stainless steel or other corrosion-resistant alloys. The metal liner provides strength, durability, and resistance to high pressures and temperatures. Stainless steel is commonly used due to its excellent corrosion resistance and mechanical properties.Corrugated Construction: The hose features a corrugated or spiral pattern along its length. This corrugated design allows the hose to flex and bend without kinking, making it easier to route in complex configurations while maintaining fluid flow.Reinforcement: In some designs, the metal hose is reinforced with additional layers of braiding or spiral-wound metal to enhance strength and pressure capability. Reinforcement can also improve the hose’s resistance to external damage and abrasion.Outer Cover: May be covered with an additional layer of metal or protective coating for added durability and protection against environmental factors. This outer cover helps prevent external damage and wear.Pressure Rating:Working Pressure: Corrugated flexible metal hoses are designed to handle a wide range of pressures, often from 10 bar to 40 bar (approximately 150 psi to 580 psi), depending on the hose's construction and reinforcement.Temperature Range:Operating Temperature: Effective across a broad temperature range, typically from -196°C to +600°C (-321°F to +1112°F), depending on the material and construction. This makes them suitable for extreme temperature conditions.Flexibility:Bending Radius: The corrugated design provides significant flexibility, allowing the hose to bend and flex while maintaining its performance. The hose can navigate around obstacles and adapt to various installation scenarios.Chemical Resistance:Compatibility: Metal hoses are resistant to many chemicals, especially when made from stainless steel or other corrosion-resistant alloys. This makes them suitable for transferring fluids and gases that might be corrosive or reactive.Safety Features:Burst Pressure: Designed with a burst pressure well above the working pressure to ensure safety and prevent hose failure. The metal construction provides strength and resilience under high-pressure conditions.
STANDARD CORRUGATED FLEXIBLE METAL HOS
VIEW DETAILS
Material:Inner Liner: Made from stainless steel or other corrosion-resistant alloys. The metal liner provides strength, durability, and resistance to high pressures and temperatures. Stainless steel is commonly used due to its excellent corrosion resistance and mechanical properties.Corrugated Construction: The hose features a corrugated or spiral pattern along its length. This corrugated design allows the hose to flex and bend without kinking, making it easier to route in complex configurations while maintaining fluid flow.Reinforcement: In some designs, the metal hose is reinforced with additional layers of braiding or spiral-wound metal to enhance strength and pressure capability. Reinforcement can also improve the hose’s resistance to external damage and abrasion.Outer Cover: May be covered with an additional layer of metal or protective coating for added durability and protection against environmental factors. This outer cover helps prevent external damage and wear.Pressure Rating:Working Pressure: Corrugated flexible metal hoses are designed to handle a wide range of pressures, often from 10 bar to 40 bar (approximately 150 psi to 580 psi), depending on the hose's construction and reinforcement.Temperature Range:Operating Temperature: Effective across a broad temperature range, typically from -196°C to +600°C (-321°F to +1112°F), depending on the material and construction. This makes them suitable for extreme temperature conditions.Flexibility:Bending Radius: The corrugated design provides significant flexibility, allowing the hose to bend and flex while maintaining its performance. The hose can navigate around obstacles and adapt to various installation scenarios.Chemical Resistance:Compatibility: Metal hoses are resistant to many chemicals, especially when made from stainless steel or other corrosion-resistant alloys. This makes them suitable for transferring fluids and gases that might be corrosive or reactive.Safety Features:Burst Pressure: Designed with a burst pressure well above the working pressure to ensure safety and prevent hose failure. The metal construction provides strength and resilience under high-pressure conditions.
STANDARD CORRUGATED FLEXIBLE METAL HOS
VIEW DETAILS
Material:Inner Liner: Made from stainless steel or other corrosion-resistant alloys. The metal liner provides strength, durability, and resistance to high pressures and temperatures. Stainless steel is commonly used due to its excellent corrosion resistance and mechanical properties.Corrugated Construction: The hose features a corrugated or spiral pattern along its length. This corrugated design allows the hose to flex and bend without kinking, making it easier to route in complex configurations while maintaining fluid flow.Reinforcement: In some designs, the metal hose is reinforced with additional layers of braiding or spiral-wound metal to enhance strength and pressure capability. Reinforcement can also improve the hose’s resistance to external damage and abrasion.Outer Cover: May be covered with an additional layer of metal or protective coating for added durability and protection against environmental factors. This outer cover helps prevent external damage and wear.Pressure Rating:Working Pressure: Corrugated flexible metal hoses are designed to handle a wide range of pressures, often from 10 bar to 40 bar (approximately 150 psi to 580 psi), depending on the hose's construction and reinforcement.Temperature Range:Operating Temperature: Effective across a broad temperature range, typically from -196°C to +600°C (-321°F to +1112°F), depending on the material and construction. This makes them suitable for extreme temperature conditions.Flexibility:Bending Radius: The corrugated design provides significant flexibility, allowing the hose to bend and flex while maintaining its performance. The hose can navigate around obstacles and adapt to various installation scenarios.Chemical Resistance:Compatibility: Metal hoses are resistant to many chemicals, especially when made from stainless steel or other corrosion-resistant alloys. This makes them suitable for transferring fluids and gases that might be corrosive or reactive.Safety Features:Burst Pressure: Designed with a burst pressure well above the working pressure to ensure safety and prevent hose failure. The metal construction provides strength and resilience under high-pressure conditions.
STANDARD CORRUGATED FLEXIBLE METAL HOS
VIEW DETAILS
Material:Inner Liner: Made from stainless steel or other corrosion-resistant alloys. The metal liner provides strength, durability, and resistance to high pressures and temperatures. Stainless steel is commonly used due to its excellent corrosion resistance and mechanical properties.Corrugated Construction: The hose features a corrugated or spiral pattern along its length. This corrugated design allows the hose to flex and bend without kinking, making it easier to route in complex configurations while maintaining fluid flow.Reinforcement: In some designs, the metal hose is reinforced with additional layers of braiding or spiral-wound metal to enhance strength and pressure capability. Reinforcement can also improve the hose’s resistance to external damage and abrasion.Outer Cover: May be covered with an additional layer of metal or protective coating for added durability and protection against environmental factors. This outer cover helps prevent external damage and wear.Pressure Rating:Working Pressure: Corrugated flexible metal hoses are designed to handle a wide range of pressures, often from 10 bar to 40 bar (approximately 150 psi to 580 psi), depending on the hose's construction and reinforcement.Temperature Range:Operating Temperature: Effective across a broad temperature range, typically from -196°C to +600°C (-321°F to +1112°F), depending on the material and construction. This makes them suitable for extreme temperature conditions.Flexibility:Bending Radius: The corrugated design provides significant flexibility, allowing the hose to bend and flex while maintaining its performance. The hose can navigate around obstacles and adapt to various installation scenarios.Chemical Resistance:Compatibility: Metal hoses are resistant to many chemicals, especially when made from stainless steel or other corrosion-resistant alloys. This makes them suitable for transferring fluids and gases that might be corrosive or reactive.Safety Features:Burst Pressure: Designed with a burst pressure well above the working pressure to ensure safety and prevent hose failure. The metal construction provides strength and resilience under high-pressure conditions.
STANDARD CORRUGATED FLEXIBLE METAL HOS
VIEW DETAILS
Material:Inner Liner: Made from stainless steel or other corrosion-resistant alloys. The metal liner provides strength, durability, and resistance to high pressures and temperatures. Stainless steel is commonly used due to its excellent corrosion resistance and mechanical properties.Corrugated Construction: The hose features a corrugated or spiral pattern along its length. This corrugated design allows the hose to flex and bend without kinking, making it easier to route in complex configurations while maintaining fluid flow.Reinforcement: In some designs, the metal hose is reinforced with additional layers of braiding or spiral-wound metal to enhance strength and pressure capability. Reinforcement can also improve the hose’s resistance to external damage and abrasion.Outer Cover: May be covered with an additional layer of metal or protective coating for added durability and protection against environmental factors. This outer cover helps prevent external damage and wear.Pressure Rating:Working Pressure: Corrugated flexible metal hoses are designed to handle a wide range of pressures, often from 10 bar to 40 bar (approximately 150 psi to 580 psi), depending on the hose's construction and reinforcement.Temperature Range:Operating Temperature: Effective across a broad temperature range, typically from -196°C to +600°C (-321°F to +1112°F), depending on the material and construction. This makes them suitable for extreme temperature conditions.Flexibility:Bending Radius: The corrugated design provides significant flexibility, allowing the hose to bend and flex while maintaining its performance. The hose can navigate around obstacles and adapt to various installation scenarios.Chemical Resistance:Compatibility: Metal hoses are resistant to many chemicals, especially when made from stainless steel or other corrosion-resistant alloys. This makes them suitable for transferring fluids and gases that might be corrosive or reactive.Safety Features:Burst Pressure: Designed with a burst pressure well above the working pressure to ensure safety and prevent hose failure. The metal construction provides strength and resilience under high-pressure conditions.
STANDARD CORRUGATED FLEXIBLE METAL HOS
VIEW DETAILS
Material:Inner Liner: Made from materials such as synthetic rubber (e.g., EPDM, SBR) or thermoplastic (e.g., PVC). The inner liner is designed to handle the pressure and temperature of both air and water, ensuring durability and flexibility.Reinforcement: Typically reinforced with textile braiding or spiral wires made of synthetic fibers or steel. This reinforcement provides the hose with strength and flexibility, allowing it to withstand high pressures and resist kinking.Outer Cover: Constructed from abrasion-resistant rubber or thermoplastic materials. The outer cover protects the hose from external damage, such as cuts, abrasions, and exposure to environmental factors like UV rays and chemicals.Pressure Rating:Working Pressure: Air/water hoses are designed to handle various pressure ranges depending on the hose’s construction. Common pressure ratings are from 6 bar to 20 bar (approximately 90 psi to 300 psi), but some hoses can handle higher pressures.Temperature Range:Operating Temperature: Typically effective within a temperature range from -10°C to +60°C (14°F to 140°F). The specific temperature range can vary based on the hose material and construction.Flexibility:Bending Radius: Designed to be flexible for ease of handling and routing. The hose’s flexibility allows it to be used in various settings without kinking or restricting flow.Safety Features:Burst Pressure: Air/water hoses are built with a burst pressure significantly higher than their working pressure to ensure safety and prevent hose failure. This construction provides a safety margin to handle unexpected pressure surges.
AIR / WATER HOSE
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Material:Inner Liner: Made from materials such as synthetic rubber (e.g., EPDM, SBR) or thermoplastic (e.g., PVC). The inner liner is designed to handle the pressure and temperature of both air and water, ensuring durability and flexibility.Reinforcement: Typically reinforced with textile braiding or spiral wires made of synthetic fibers or steel. This reinforcement provides the hose with strength and flexibility, allowing it to withstand high pressures and resist kinking.Outer Cover: Constructed from abrasion-resistant rubber or thermoplastic materials. The outer cover protects the hose from external damage, such as cuts, abrasions, and exposure to environmental factors like UV rays and chemicals.Pressure Rating:Working Pressure: Air/water hoses are designed to handle various pressure ranges depending on the hose’s construction. Common pressure ratings are from 6 bar to 20 bar (approximately 90 psi to 300 psi), but some hoses can handle higher pressures.Temperature Range:Operating Temperature: Typically effective within a temperature range from -10°C to +60°C (14°F to 140°F). The specific temperature range can vary based on the hose material and construction.Flexibility:Bending Radius: Designed to be flexible for ease of handling and routing. The hose’s flexibility allows it to be used in various settings without kinking or restricting flow.Safety Features:Burst Pressure: Air/water hoses are built with a burst pressure significantly higher than their working pressure to ensure safety and prevent hose failure. This construction provides a safety margin to handle unexpected pressure surges.
AIR / WATER HOSE
VIEW DETAILS
Material:Inner Liner: Made from materials such as synthetic rubber (e.g., EPDM, SBR) or thermoplastic (e.g., PVC). The inner liner is designed to handle the pressure and temperature of both air and water, ensuring durability and flexibility.Reinforcement: Typically reinforced with textile braiding or spiral wires made of synthetic fibers or steel. This reinforcement provides the hose with strength and flexibility, allowing it to withstand high pressures and resist kinking.Outer Cover: Constructed from abrasion-resistant rubber or thermoplastic materials. The outer cover protects the hose from external damage, such as cuts, abrasions, and exposure to environmental factors like UV rays and chemicals.Pressure Rating:Working Pressure: Air/water hoses are designed to handle various pressure ranges depending on the hose’s construction. Common pressure ratings are from 6 bar to 20 bar (approximately 90 psi to 300 psi), but some hoses can handle higher pressures.Temperature Range:Operating Temperature: Typically effective within a temperature range from -10°C to +60°C (14°F to 140°F). The specific temperature range can vary based on the hose material and construction.Flexibility:Bending Radius: Designed to be flexible for ease of handling and routing. The hose’s flexibility allows it to be used in various settings without kinking or restricting flow.Safety Features:Burst Pressure: Air/water hoses are built with a burst pressure significantly higher than their working pressure to ensure safety and prevent hose failure. This construction provides a safety margin to handle unexpected pressure surges.
AIR / WATER HOSE
VIEW DETAILS
Material:Inner Liner: Made from materials such as synthetic rubber (e.g., EPDM, SBR) or thermoplastic (e.g., PVC). The inner liner is designed to handle the pressure and temperature of both air and water, ensuring durability and flexibility.Reinforcement: Typically reinforced with textile braiding or spiral wires made of synthetic fibers or steel. This reinforcement provides the hose with strength and flexibility, allowing it to withstand high pressures and resist kinking.Outer Cover: Constructed from abrasion-resistant rubber or thermoplastic materials. The outer cover protects the hose from external damage, such as cuts, abrasions, and exposure to environmental factors like UV rays and chemicals.Pressure Rating:Working Pressure: Air/water hoses are designed to handle various pressure ranges depending on the hose’s construction. Common pressure ratings are from 6 bar to 20 bar (approximately 90 psi to 300 psi), but some hoses can handle higher pressures.Temperature Range:Operating Temperature: Typically effective within a temperature range from -10°C to +60°C (14°F to 140°F). The specific temperature range can vary based on the hose material and construction.Flexibility:Bending Radius: Designed to be flexible for ease of handling and routing. The hose’s flexibility allows it to be used in various settings without kinking or restricting flow.Safety Features:Burst Pressure: Air/water hoses are built with a burst pressure significantly higher than their working pressure to ensure safety and prevent hose failure. This construction provides a safety margin to handle unexpected pressure surges.
AIR / WATER HOSE
VIEW DETAILS
Material:Inner Liner: Made from synthetic rubber or thermoplastic materials, such as neoprene, nitrile, or PVC, depending on the hose’s intended use. The inner liner must be resistant to the specific gases it will transport, such as oxygen or acetylene.Reinforcement: Typically reinforced with layers of synthetic fabric or braided steel wires to provide strength and flexibility. This reinforcement helps the hose withstand high pressure and mechanical stress.Outer Cover: Constructed from a durable, abrasion-resistant material like synthetic rubber or thermoplastic. The outer cover protects the hose from external damage, such as cuts, abrasions, and exposure to environmental factors.Pressure Rating:Working Pressure: Welding hoses are designed to handle high pressures, typically ranging from 10 bar to 20 bar (approximately 150 psi to 300 psi), depending on the hose’s construction and the specific gases being transported.Temperature Range:Operating Temperature: Generally effective within a temperature range from -20°C to +70°C (-4°F to +158°F). The specific temperature range can vary based on the hose material and construction.Color Coding:Identification: Welding hoses are often color-coded to distinguish between different gases. For example, acetylene hoses are commonly red, while oxygen hoses are typically green. This color coding helps prevent confusion and ensures safety.Flexibility:Bending Radius: Designed to be flexible for ease of handling and routing around equipment and work areas. The hose’s flexibility allows it to be maneuvered without kinking or restricting gas flow.Safety Features:Burst Pressure: Welding hoses are built with a burst pressure much higher than the working pressure to ensure safety and prevent hose failure. This construction provides a safety margin to handle unexpected pressure surges.
WELDING HOSE
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Material:Inner Liner: Made from synthetic rubber or thermoplastic materials, such as neoprene, nitrile, or PVC, depending on the hose’s intended use. The inner liner must be resistant to the specific gases it will transport, such as oxygen or acetylene.Reinforcement: Typically reinforced with layers of synthetic fabric or braided steel wires to provide strength and flexibility. This reinforcement helps the hose withstand high pressure and mechanical stress.Outer Cover: Constructed from a durable, abrasion-resistant material like synthetic rubber or thermoplastic. The outer cover protects the hose from external damage, such as cuts, abrasions, and exposure to environmental factors.Pressure Rating:Working Pressure: Welding hoses are designed to handle high pressures, typically ranging from 10 bar to 20 bar (approximately 150 psi to 300 psi), depending on the hose’s construction and the specific gases being transported.Temperature Range:Operating Temperature: Generally effective within a temperature range from -20°C to +70°C (-4°F to +158°F). The specific temperature range can vary based on the hose material and construction.Color Coding:Identification: Welding hoses are often color-coded to distinguish between different gases. For example, acetylene hoses are commonly red, while oxygen hoses are typically green. This color coding helps prevent confusion and ensures safety.Flexibility:Bending Radius: Designed to be flexible for ease of handling and routing around equipment and work areas. The hose’s flexibility allows it to be maneuvered without kinking or restricting gas flow.Safety Features:Burst Pressure: Welding hoses are built with a burst pressure much higher than the working pressure to ensure safety and prevent hose failure. This construction provides a safety margin to handle unexpected pressure surges.
WELDING HOSE
VIEW DETAILS
Material:Inner Liner: Made from synthetic rubber or thermoplastic materials, such as neoprene, nitrile, or PVC, depending on the hose’s intended use. The inner liner must be resistant to the specific gases it will transport, such as oxygen or acetylene.Reinforcement: Typically reinforced with layers of synthetic fabric or braided steel wires to provide strength and flexibility. This reinforcement helps the hose withstand high pressure and mechanical stress.Outer Cover: Constructed from a durable, abrasion-resistant material like synthetic rubber or thermoplastic. The outer cover protects the hose from external damage, such as cuts, abrasions, and exposure to environmental factors.Pressure Rating:Working Pressure: Welding hoses are designed to handle high pressures, typically ranging from 10 bar to 20 bar (approximately 150 psi to 300 psi), depending on the hose’s construction and the specific gases being transported.Temperature Range:Operating Temperature: Generally effective within a temperature range from -20°C to +70°C (-4°F to +158°F). The specific temperature range can vary based on the hose material and construction.Color Coding:Identification: Welding hoses are often color-coded to distinguish between different gases. For example, acetylene hoses are commonly red, while oxygen hoses are typically green. This color coding helps prevent confusion and ensures safety.Flexibility:Bending Radius: Designed to be flexible for ease of handling and routing around equipment and work areas. The hose’s flexibility allows it to be maneuvered without kinking or restricting gas flow.Safety Features:Burst Pressure: Welding hoses are built with a burst pressure much higher than the working pressure to ensure safety and prevent hose failure. This construction provides a safety margin to handle unexpected pressure surges.
WELDING HOSE
VIEW DETAILS
Material:Inner Liner: Made from synthetic rubber or thermoplastic materials, such as neoprene, nitrile, or PVC, depending on the hose’s intended use. The inner liner must be resistant to the specific gases it will transport, such as oxygen or acetylene.Reinforcement: Typically reinforced with layers of synthetic fabric or braided steel wires to provide strength and flexibility. This reinforcement helps the hose withstand high pressure and mechanical stress.Outer Cover: Constructed from a durable, abrasion-resistant material like synthetic rubber or thermoplastic. The outer cover protects the hose from external damage, such as cuts, abrasions, and exposure to environmental factors.Pressure Rating:Working Pressure: Welding hoses are designed to handle high pressures, typically ranging from 10 bar to 20 bar (approximately 150 psi to 300 psi), depending on the hose’s construction and the specific gases being transported.Temperature Range:Operating Temperature: Generally effective within a temperature range from -20°C to +70°C (-4°F to +158°F). The specific temperature range can vary based on the hose material and construction.Color Coding:Identification: Welding hoses are often color-coded to distinguish between different gases. For example, acetylene hoses are commonly red, while oxygen hoses are typically green. This color coding helps prevent confusion and ensures safety.Flexibility:Bending Radius: Designed to be flexible for ease of handling and routing around equipment and work areas. The hose’s flexibility allows it to be maneuvered without kinking or restricting gas flow.Safety Features:Burst Pressure: Welding hoses are built with a burst pressure much higher than the working pressure to ensure safety and prevent hose failure. This construction provides a safety margin to handle unexpected pressure surges.
WELDING HOSE
VIEW DETAILS
Material:Inner Liner: Made from synthetic rubber or thermoplastic materials, such as neoprene, nitrile, or PVC, depending on the hose’s intended use. The inner liner must be resistant to the specific gases it will transport, such as oxygen or acetylene.Reinforcement: Typically reinforced with layers of synthetic fabric or braided steel wires to provide strength and flexibility. This reinforcement helps the hose withstand high pressure and mechanical stress.Outer Cover: Constructed from a durable, abrasion-resistant material like synthetic rubber or thermoplastic. The outer cover protects the hose from external damage, such as cuts, abrasions, and exposure to environmental factors.Pressure Rating:Working Pressure: Welding hoses are designed to handle high pressures, typically ranging from 10 bar to 20 bar (approximately 150 psi to 300 psi), depending on the hose’s construction and the specific gases being transported.Temperature Range:Operating Temperature: Generally effective within a temperature range from -20°C to +70°C (-4°F to +158°F). The specific temperature range can vary based on the hose material and construction.Color Coding:Identification: Welding hoses are often color-coded to distinguish between different gases. For example, acetylene hoses are commonly red, while oxygen hoses are typically green. This color coding helps prevent confusion and ensures safety.Flexibility:Bending Radius: Designed to be flexible for ease of handling and routing around equipment and work areas. The hose’s flexibility allows it to be maneuvered without kinking or restricting gas flow.Safety Features:Burst Pressure: Welding hoses are built with a burst pressure much higher than the working pressure to ensure safety and prevent hose failure. This construction provides a safety margin to handle unexpected pressure surges.
WELDING HOSE
VIEW DETAILS
Material:Inner Liner: Often made from synthetic rubber (such as SBR or EPDM), polyurethane (PU), or thermoplastic rubber. The inner liner is designed to handle the pressure of compressed air and resist abrasion and wear.Reinforcement: Usually reinforced with textile braiding or spiral wires (such as steel or synthetic fibers) to provide strength and prevent collapse under high pressure. This reinforcement ensures the hose can withstand the pressures of compressed air systems and enhances its durability.Outer Cover: Typically constructed from abrasion-resistant rubber or thermoplastic materials. The outer cover protects the hose from external damage, including cuts, abrasions, and exposure to environmental factors.Pressure Rating:Working Pressure: Pneumatic tool hoses are designed to handle pressures typically ranging from 6 bar to 15 bar (approximately 90 psi to 225 psi), though some hoses can handle higher pressures depending on their design and construction.Temperature Range:Operating Temperature: Usually effective within a temperature range from -20°C to +60°C (-4°F to +140°F). The specific temperature range can vary based on the hose material and construction.Flexibility:Bending Radius: Designed to be flexible for ease of handling and maneuvering. The hose's flexibility allows it to be routed around equipment and obstacles without kinking or restricting airflow.Couplings and Fittings:Connections: Often fitted with quick-connect couplings or fittings that ensure secure attachment to pneumatic tools and compressors. These connections are designed for easy coupling and uncoupling, enhancing efficiency in changing tools or equipment.Safety Features:Burst Pressure: Pneumatic hoses are designed with a burst pressure significantly higher than their working pressure to ensure safety and prevent hose failure. The construction typically includes safety margins to handle unexpected pressure surges.
PNEUMATIC TOOL HOSE
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Material:Inner Liner: Often made from synthetic rubber (such as SBR or EPDM), polyurethane (PU), or thermoplastic rubber. The inner liner is designed to handle the pressure of compressed air and resist abrasion and wear.Reinforcement: Usually reinforced with textile braiding or spiral wires (such as steel or synthetic fibers) to provide strength and prevent collapse under high pressure. This reinforcement ensures the hose can withstand the pressures of compressed air systems and enhances its durability.Outer Cover: Typically constructed from abrasion-resistant rubber or thermoplastic materials. The outer cover protects the hose from external damage, including cuts, abrasions, and exposure to environmental factors.Pressure Rating:Working Pressure: Pneumatic tool hoses are designed to handle pressures typically ranging from 6 bar to 15 bar (approximately 90 psi to 225 psi), though some hoses can handle higher pressures depending on their design and construction.Temperature Range:Operating Temperature: Usually effective within a temperature range from -20°C to +60°C (-4°F to +140°F). The specific temperature range can vary based on the hose material and construction.Flexibility:Bending Radius: Designed to be flexible for ease of handling and maneuvering. The hose's flexibility allows it to be routed around equipment and obstacles without kinking or restricting airflow.Couplings and Fittings:Connections: Often fitted with quick-connect couplings or fittings that ensure secure attachment to pneumatic tools and compressors. These connections are designed for easy coupling and uncoupling, enhancing efficiency in changing tools or equipment.Safety Features:Burst Pressure: Pneumatic hoses are designed with a burst pressure significantly higher than their working pressure to ensure safety and prevent hose failure. The construction typically includes safety margins to handle unexpected pressure surges.
PNEUMATIC TOOL HOSE
VIEW DETAILS
Material:Inner Liner: Often made from synthetic rubber (such as SBR or EPDM), polyurethane (PU), or thermoplastic rubber. The inner liner is designed to handle the pressure of compressed air and resist abrasion and wear.Reinforcement: Usually reinforced with textile braiding or spiral wires (such as steel or synthetic fibers) to provide strength and prevent collapse under high pressure. This reinforcement ensures the hose can withstand the pressures of compressed air systems and enhances its durability.Outer Cover: Typically constructed from abrasion-resistant rubber or thermoplastic materials. The outer cover protects the hose from external damage, including cuts, abrasions, and exposure to environmental factors.Pressure Rating:Working Pressure: Pneumatic tool hoses are designed to handle pressures typically ranging from 6 bar to 15 bar (approximately 90 psi to 225 psi), though some hoses can handle higher pressures depending on their design and construction.Temperature Range:Operating Temperature: Usually effective within a temperature range from -20°C to +60°C (-4°F to +140°F). The specific temperature range can vary based on the hose material and construction.Flexibility:Bending Radius: Designed to be flexible for ease of handling and maneuvering. The hose's flexibility allows it to be routed around equipment and obstacles without kinking or restricting airflow.Couplings and Fittings:Connections: Often fitted with quick-connect couplings or fittings that ensure secure attachment to pneumatic tools and compressors. These connections are designed for easy coupling and uncoupling, enhancing efficiency in changing tools or equipment.Safety Features:Burst Pressure: Pneumatic hoses are designed with a burst pressure significantly higher than their working pressure to ensure safety and prevent hose failure. The construction typically includes safety margins to handle unexpected pressure surges.
PNEUMATIC TOOL HOSE
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Material:Inner Liner: Often made from synthetic rubber (such as SBR or EPDM), polyurethane (PU), or thermoplastic rubber. The inner liner is designed to handle the pressure of compressed air and resist abrasion and wear.Reinforcement: Usually reinforced with textile braiding or spiral wires (such as steel or synthetic fibers) to provide strength and prevent collapse under high pressure. This reinforcement ensures the hose can withstand the pressures of compressed air systems and enhances its durability.Outer Cover: Typically constructed from abrasion-resistant rubber or thermoplastic materials. The outer cover protects the hose from external damage, including cuts, abrasions, and exposure to environmental factors.Pressure Rating:Working Pressure: Pneumatic tool hoses are designed to handle pressures typically ranging from 6 bar to 15 bar (approximately 90 psi to 225 psi), though some hoses can handle higher pressures depending on their design and construction.Temperature Range:Operating Temperature: Usually effective within a temperature range from -20°C to +60°C (-4°F to +140°F). The specific temperature range can vary based on the hose material and construction.Flexibility:Bending Radius: Designed to be flexible for ease of handling and maneuvering. The hose's flexibility allows it to be routed around equipment and obstacles without kinking or restricting airflow.Couplings and Fittings:Connections: Often fitted with quick-connect couplings or fittings that ensure secure attachment to pneumatic tools and compressors. These connections are designed for easy coupling and uncoupling, enhancing efficiency in changing tools or equipment.Safety Features:Burst Pressure: Pneumatic hoses are designed with a burst pressure significantly higher than their working pressure to ensure safety and prevent hose failure. The construction typically includes safety margins to handle unexpected pressure surges.
PNEUMATIC TOOL HOSE
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Material:Inner Liner: Made from PTFE (Polytetrafluoroethylene), a high-performance fluoropolymer known for its exceptional chemical resistance, non-stick properties, and high-temperature stability.Convoluted Construction: The hose features a corrugated or convoluted structure, which means it has a series of alternating ridges and grooves along its length. This design enhances flexibility and allows the hose to bend and flex without kinking.Reinforcement: Typically reinforced with stainless steel braid or other high-strength materials. This reinforcement provides strength, burst resistance, and durability, and helps the hose withstand high pressures and external forces.Outer Cover: Often includes an additional protective outer cover made from materials such as rubber or thermoplastic. This cover protects the hose from abrasion, environmental factors, and other external damage.Pressure Rating:Working Pressure: PTFE convoluted hoses are designed to handle a range of pressures, usually from 10 bar to 40 bar (approximately 150 psi to 580 psi), depending on the specific construction and application.Temperature Range:Operating Temperature: Capable of operating effectively across a wide temperature range, from -70°C to +260°C (-94°F to +500°F). This makes them suitable for extreme temperature conditions.Chemical Resistance:Compatibility: PTFE is highly resistant to a broad spectrum of chemicals, including acids, bases, solvents, and gases. The convoluted design adds additional flexibility while maintaining chemical resistance.Flexibility:Bending Radius: The convoluted structure allows the hose to flex and bend easily, accommodating tight spaces and complex routing without compromising performance. The hose’s flexibility is enhanced by its corrugated design.Safety Features:Reinforcement: The stainless steel or high-strength reinforcement helps prevent hose collapse under vacuum conditions and ensures durability against high pressures.Compliance: Often manufactured to meet specific industry standards and regulations for chemical handling and safety.Applications:
PTFE CONVOLITED HOSE
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Material:Inner Liner: Made from PTFE (Polytetrafluoroethylene), a high-performance fluoropolymer known for its exceptional chemical resistance, non-stick properties, and high-temperature stability.Convoluted Construction: The hose features a corrugated or convoluted structure, which means it has a series of alternating ridges and grooves along its length. This design enhances flexibility and allows the hose to bend and flex without kinking.Reinforcement: Typically reinforced with stainless steel braid or other high-strength materials. This reinforcement provides strength, burst resistance, and durability, and helps the hose withstand high pressures and external forces.Outer Cover: Often includes an additional protective outer cover made from materials such as rubber or thermoplastic. This cover protects the hose from abrasion, environmental factors, and other external damage.Pressure Rating:Working Pressure: PTFE convoluted hoses are designed to handle a range of pressures, usually from 10 bar to 40 bar (approximately 150 psi to 580 psi), depending on the specific construction and application.Temperature Range:Operating Temperature: Capable of operating effectively across a wide temperature range, from -70°C to +260°C (-94°F to +500°F). This makes them suitable for extreme temperature conditions.Chemical Resistance:Compatibility: PTFE is highly resistant to a broad spectrum of chemicals, including acids, bases, solvents, and gases. The convoluted design adds additional flexibility while maintaining chemical resistance.Flexibility:Bending Radius: The convoluted structure allows the hose to flex and bend easily, accommodating tight spaces and complex routing without compromising performance. The hose’s flexibility is enhanced by its corrugated design.Safety Features:Reinforcement: The stainless steel or high-strength reinforcement helps prevent hose collapse under vacuum conditions and ensures durability against high pressures.Compliance: Often manufactured to meet specific industry standards and regulations for chemical handling and safety.Applications:
PTFE CONVOLITED HOSE
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Material:Inner Liner: Made from PTFE (Polytetrafluoroethylene), a high-performance fluoropolymer known for its exceptional chemical resistance, non-stick properties, and high-temperature stability.Convoluted Construction: The hose features a corrugated or convoluted structure, which means it has a series of alternating ridges and grooves along its length. This design enhances flexibility and allows the hose to bend and flex without kinking.Reinforcement: Typically reinforced with stainless steel braid or other high-strength materials. This reinforcement provides strength, burst resistance, and durability, and helps the hose withstand high pressures and external forces.Outer Cover: Often includes an additional protective outer cover made from materials such as rubber or thermoplastic. This cover protects the hose from abrasion, environmental factors, and other external damage.Pressure Rating:Working Pressure: PTFE convoluted hoses are designed to handle a range of pressures, usually from 10 bar to 40 bar (approximately 150 psi to 580 psi), depending on the specific construction and application.Temperature Range:Operating Temperature: Capable of operating effectively across a wide temperature range, from -70°C to +260°C (-94°F to +500°F). This makes them suitable for extreme temperature conditions.Chemical Resistance:Compatibility: PTFE is highly resistant to a broad spectrum of chemicals, including acids, bases, solvents, and gases. The convoluted design adds additional flexibility while maintaining chemical resistance.Flexibility:Bending Radius: The convoluted structure allows the hose to flex and bend easily, accommodating tight spaces and complex routing without compromising performance. The hose’s flexibility is enhanced by its corrugated design.Safety Features:Reinforcement: The stainless steel or high-strength reinforcement helps prevent hose collapse under vacuum conditions and ensures durability against high pressures.Compliance: Often manufactured to meet specific industry standards and regulations for chemical handling and safety.Applications:
PTFE CONVOLITED HOSE
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Material:Inner Liner: Made from PTFE (Polytetrafluoroethylene), a high-performance fluoropolymer known for its exceptional chemical resistance, non-stick properties, and high-temperature stability.Convoluted Construction: The hose features a corrugated or convoluted structure, which means it has a series of alternating ridges and grooves along its length. This design enhances flexibility and allows the hose to bend and flex without kinking.Reinforcement: Typically reinforced with stainless steel braid or other high-strength materials. This reinforcement provides strength, burst resistance, and durability, and helps the hose withstand high pressures and external forces.Outer Cover: Often includes an additional protective outer cover made from materials such as rubber or thermoplastic. This cover protects the hose from abrasion, environmental factors, and other external damage.Pressure Rating:Working Pressure: PTFE convoluted hoses are designed to handle a range of pressures, usually from 10 bar to 40 bar (approximately 150 psi to 580 psi), depending on the specific construction and application.Temperature Range:Operating Temperature: Capable of operating effectively across a wide temperature range, from -70°C to +260°C (-94°F to +500°F). This makes them suitable for extreme temperature conditions.Chemical Resistance:Compatibility: PTFE is highly resistant to a broad spectrum of chemicals, including acids, bases, solvents, and gases. The convoluted design adds additional flexibility while maintaining chemical resistance.Flexibility:Bending Radius: The convoluted structure allows the hose to flex and bend easily, accommodating tight spaces and complex routing without compromising performance. The hose’s flexibility is enhanced by its corrugated design.Safety Features:Reinforcement: The stainless steel or high-strength reinforcement helps prevent hose collapse under vacuum conditions and ensures durability against high pressures.Compliance: Often manufactured to meet specific industry standards and regulations for chemical handling and safety.Applications:
PTFE CONVOLITED HOSE
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Material:Inner Liner: Made from PTFE, a high-performance fluoropolymer known for its chemical resistance, non-reactivity, and high-temperature tolerance. PTFE’s low friction properties ensure smooth fluid flow and minimal pressure drop.Reinforcement: Typically reinforced with stainless steel braiding or other high-strength materials. This reinforcement adds mechanical strength, helps the hose withstand higher pressures, and provides durability against external damage.Outer Cover: The outer cover is often made from additional layers of protective material, such as a rubber or thermoplastic compound, which enhances abrasion resistance and protects the hose from environmental factors.Pressure Rating:Working Pressure: PTFE gas hoses are designed to handle a range of pressures, from low to high, depending on the hose construction and application requirements. Typical working pressures can vary from 10 bar to 50 bar (approximately 150 psi to 725 psi), with some designs accommodating higher pressures.Temperature Range:Operating Temperature: PTFE hoses can operate effectively across a wide temperature range, from -70°C to +260°C (-94°F to +500°F), making them suitable for extreme temperature conditions.Chemical Resistance:Compatibility: PTFE’s inherent chemical resistance makes these hoses ideal for handling gases that are corrosive, reactive, or otherwise harsh. They are compatible with a wide range of chemicals, including acids, bases, solvents, and gases.Flexibility:Bending Radius: Designed to be flexible while maintaining durability, allowing for easier routing and installation in various setups. The flexibility can depend on the reinforcement and outer cover used.Safety Features:Reinforcement: Stainless steel or other high-strength reinforcement layers help prevent hose collapse under vacuum conditions and provide burst resistance.Compliance: Often manufactured to meet specific industry standards and regulations for gas handling and safety.
PTFE GAS HOSE
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Material:Inner Liner: Made from PTFE, a high-performance fluoropolymer known for its chemical resistance, non-reactivity, and high-temperature tolerance. PTFE’s low friction properties ensure smooth fluid flow and minimal pressure drop.Reinforcement: Typically reinforced with stainless steel braiding or other high-strength materials. This reinforcement adds mechanical strength, helps the hose withstand higher pressures, and provides durability against external damage.Outer Cover: The outer cover is often made from additional layers of protective material, such as a rubber or thermoplastic compound, which enhances abrasion resistance and protects the hose from environmental factors.Pressure Rating:Working Pressure: PTFE gas hoses are designed to handle a range of pressures, from low to high, depending on the hose construction and application requirements. Typical working pressures can vary from 10 bar to 50 bar (approximately 150 psi to 725 psi), with some designs accommodating higher pressures.Temperature Range:Operating Temperature: PTFE hoses can operate effectively across a wide temperature range, from -70°C to +260°C (-94°F to +500°F), making them suitable for extreme temperature conditions.Chemical Resistance:Compatibility: PTFE’s inherent chemical resistance makes these hoses ideal for handling gases that are corrosive, reactive, or otherwise harsh. They are compatible with a wide range of chemicals, including acids, bases, solvents, and gases.Flexibility:Bending Radius: Designed to be flexible while maintaining durability, allowing for easier routing and installation in various setups. The flexibility can depend on the reinforcement and outer cover used.Safety Features:Reinforcement: Stainless steel or other high-strength reinforcement layers help prevent hose collapse under vacuum conditions and provide burst resistance.Compliance: Often manufactured to meet specific industry standards and regulations for gas handling and safety.
PTFE GAS HOSE
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Material:Inner Liner: Made from PTFE, a high-performance fluoropolymer known for its chemical resistance, non-reactivity, and high-temperature tolerance. PTFE’s low friction properties ensure smooth fluid flow and minimal pressure drop.Reinforcement: Typically reinforced with stainless steel braiding or other high-strength materials. This reinforcement adds mechanical strength, helps the hose withstand higher pressures, and provides durability against external damage.Outer Cover: The outer cover is often made from additional layers of protective material, such as a rubber or thermoplastic compound, which enhances abrasion resistance and protects the hose from environmental factors.Pressure Rating:Working Pressure: PTFE gas hoses are designed to handle a range of pressures, from low to high, depending on the hose construction and application requirements. Typical working pressures can vary from 10 bar to 50 bar (approximately 150 psi to 725 psi), with some designs accommodating higher pressures.Temperature Range:Operating Temperature: PTFE hoses can operate effectively across a wide temperature range, from -70°C to +260°C (-94°F to +500°F), making them suitable for extreme temperature conditions.Chemical Resistance:Compatibility: PTFE’s inherent chemical resistance makes these hoses ideal for handling gases that are corrosive, reactive, or otherwise harsh. They are compatible with a wide range of chemicals, including acids, bases, solvents, and gases.Flexibility:Bending Radius: Designed to be flexible while maintaining durability, allowing for easier routing and installation in various setups. The flexibility can depend on the reinforcement and outer cover used.Safety Features:Reinforcement: Stainless steel or other high-strength reinforcement layers help prevent hose collapse under vacuum conditions and provide burst resistance.Compliance: Often manufactured to meet specific industry standards and regulations for gas handling and safety.
PTFE GAS HOSE
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Material:Inner Liner: Made from PTFE, a high-performance fluoropolymer known for its chemical resistance, non-reactivity, and high-temperature tolerance. PTFE’s low friction properties ensure smooth fluid flow and minimal pressure drop.Reinforcement: Typically reinforced with stainless steel braiding or other high-strength materials. This reinforcement adds mechanical strength, helps the hose withstand higher pressures, and provides durability against external damage.Outer Cover: The outer cover is often made from additional layers of protective material, such as a rubber or thermoplastic compound, which enhances abrasion resistance and protects the hose from environmental factors.Pressure Rating:Working Pressure: PTFE gas hoses are designed to handle a range of pressures, from low to high, depending on the hose construction and application requirements. Typical working pressures can vary from 10 bar to 50 bar (approximately 150 psi to 725 psi), with some designs accommodating higher pressures.Temperature Range:Operating Temperature: PTFE hoses can operate effectively across a wide temperature range, from -70°C to +260°C (-94°F to +500°F), making them suitable for extreme temperature conditions.Chemical Resistance:Compatibility: PTFE’s inherent chemical resistance makes these hoses ideal for handling gases that are corrosive, reactive, or otherwise harsh. They are compatible with a wide range of chemicals, including acids, bases, solvents, and gases.Flexibility:Bending Radius: Designed to be flexible while maintaining durability, allowing for easier routing and installation in various setups. The flexibility can depend on the reinforcement and outer cover used.Safety Features:Reinforcement: Stainless steel or other high-strength reinforcement layers help prevent hose collapse under vacuum conditions and provide burst resistance.Compliance: Often manufactured to meet specific industry standards and regulations for gas handling and safety.
PTFE GAS HOSE
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Standard and Designation:SAE Standard: The R 14 designation is part of SAE J517, which specifies hydraulic hoses designed to handle high-pressure applications. This standard outlines the construction, performance, and testing requirements for such hoses.Construction:Inner Liner: Typically made from a high-quality PTFE (Polytetrafluoroethylene) or similar fluoropolymer material. PTFE provides excellent chemical resistance and low friction, ensuring smooth fluid flow and compatibility with a wide range of hydraulic fluids.Reinforcement: The hose is reinforced with multiple layers of steel braiding. This reinforcement provides the necessary strength to withstand high pressures and resist external damage.Outer Cover: Usually made from a durable synthetic rubber or thermoplastic material that offers protection against abrasion, weathering, and chemicals. The outer cover is designed to extend the hose’s service life and enhance its durability.Pressure Rating:Working Pressure: R 14 hoses are designed to handle high pressures, typically up to 30 bar to 70 bar (approximately 450 psi to 1000 psi), depending on the specific design and application.Temperature Range:Operating Temperature: Generally operates effectively within a temperature range from -40°C to +150°C (-40°F to +302°F). The specific temperature range can vary based on the hose’s construction materials.Flexibility:Flexibility and Bending Radius: Designed to be flexible, making it easier to handle and install in various applications. The hose typically has a tight bending radius, allowing it to be used in confined spaces.Chemical Resistance:Compatibility: The PTFE liner provides excellent chemical resistance, making the hose suitable for use with a wide range of hydraulic fluids, including aggressive chemicals, oils, and solvents.
R 14
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Standard and Designation:SAE Standard: The R 14 designation is part of SAE J517, which specifies hydraulic hoses designed to handle high-pressure applications. This standard outlines the construction, performance, and testing requirements for such hoses.Construction:Inner Liner: Typically made from a high-quality PTFE (Polytetrafluoroethylene) or similar fluoropolymer material. PTFE provides excellent chemical resistance and low friction, ensuring smooth fluid flow and compatibility with a wide range of hydraulic fluids.Reinforcement: The hose is reinforced with multiple layers of steel braiding. This reinforcement provides the necessary strength to withstand high pressures and resist external damage.Outer Cover: Usually made from a durable synthetic rubber or thermoplastic material that offers protection against abrasion, weathering, and chemicals. The outer cover is designed to extend the hose’s service life and enhance its durability.Pressure Rating:Working Pressure: R 14 hoses are designed to handle high pressures, typically up to 30 bar to 70 bar (approximately 450 psi to 1000 psi), depending on the specific design and application.Temperature Range:Operating Temperature: Generally operates effectively within a temperature range from -40°C to +150°C (-40°F to +302°F). The specific temperature range can vary based on the hose’s construction materials.Flexibility:Flexibility and Bending Radius: Designed to be flexible, making it easier to handle and install in various applications. The hose typically has a tight bending radius, allowing it to be used in confined spaces.Chemical Resistance:Compatibility: The PTFE liner provides excellent chemical resistance, making the hose suitable for use with a wide range of hydraulic fluids, including aggressive chemicals, oils, and solvents.
R 14
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Standard and Designation:SAE Standard: The R 14 designation is part of SAE J517, which specifies hydraulic hoses designed to handle high-pressure applications. This standard outlines the construction, performance, and testing requirements for such hoses.Construction:Inner Liner: Typically made from a high-quality PTFE (Polytetrafluoroethylene) or similar fluoropolymer material. PTFE provides excellent chemical resistance and low friction, ensuring smooth fluid flow and compatibility with a wide range of hydraulic fluids.Reinforcement: The hose is reinforced with multiple layers of steel braiding. This reinforcement provides the necessary strength to withstand high pressures and resist external damage.Outer Cover: Usually made from a durable synthetic rubber or thermoplastic material that offers protection against abrasion, weathering, and chemicals. The outer cover is designed to extend the hose’s service life and enhance its durability.Pressure Rating:Working Pressure: R 14 hoses are designed to handle high pressures, typically up to 30 bar to 70 bar (approximately 450 psi to 1000 psi), depending on the specific design and application.Temperature Range:Operating Temperature: Generally operates effectively within a temperature range from -40°C to +150°C (-40°F to +302°F). The specific temperature range can vary based on the hose’s construction materials.Flexibility:Flexibility and Bending Radius: Designed to be flexible, making it easier to handle and install in various applications. The hose typically has a tight bending radius, allowing it to be used in confined spaces.Chemical Resistance:Compatibility: The PTFE liner provides excellent chemical resistance, making the hose suitable for use with a wide range of hydraulic fluids, including aggressive chemicals, oils, and solvents.
R 14
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Type:Spray Gun: A tool used for applying paint or coating materials in a fine mist. It provides an even, smooth application and is often used in various professional and DIY projects.Pressure and Flow Rate:Pressure: Paint spray guns usually operate at varying pressures, typically ranging from 1.5 to 3 bar (approximately 22 to 45 psi) for general applications. The
PAINT SPRAY - 1 W
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Pressure Rating:Pressure: The sewer jet operates at a high pressure of 3000 PSI, which allows it to deliver powerful water jets to dislodge and remove stubborn blockages and debris from sewer pipes and drains.Construction:Hose: Typically made from reinforced rubber or thermoplastic materials to handle the high pressure without bursting. The hose is often reinforced with multiple layers of high-tensile steel wire or synthetic fibers to ensure durability and strength.Nozzle: Equipped with a high-pressure nozzle that directs the water stream effectively. The nozzle design can vary, including single or multiple jet nozzles, to optimize cleaning efficiency and reach. Common nozzle configurations include rotating nozzles that help to agitate and break up debris.Operating Mechanism:Water Supply: The sewer jet connects to a high-pressure water supply, which is typically provided by a specialized pump. The pump generates the high-pressure water stream required for effective cleaning.Pressure Control: Includes mechanisms for controlling the water pressure and flow rate, allowing the operator to adjust the intensity of the jet according to the cleaning requirements.Temperature Range:The hose and equipment are designed to handle high-pressure water at various temperatures, though the specific temperature range can depend on the hose material and construction. Typically, temperatures range from ambient to hot water (up to 60°C or 140°F) for enhanced cleaning power.Durability:Built to withstand the rigors of high-pressure operation and harsh environments. The components are designed for long-term use with minimal maintenance.Safety Features:Designed with safety features such as pressure relief valves and protective covers to prevent accidents and ensure safe operation. Proper training and safety precautions are essential when operating high-pressure equipment.
SEWER JET - 3000 PSI
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Pressure Rating:Working Pressure: The R8 hydraulic hose is designed for high-pressure applications, usually with a working pressure of up to 70 bar to 100 bar (approximately 1000 psi to 1500 psi). The exact pressure rating can vary based on the hose’s construction and manufacturer specifications.Construction:Inner Liner: The inner liner is made from high-quality thermoplastic materials or synthetic rubber, specifically designed to resist degradation from hydraulic fluids and to ensure smooth, efficient fluid flow.Reinforcement: Features multiple layers of reinforcement, often including high-tensile steel wire braid or synthetic fibers. This reinforcement provides the necessary strength to withstand high pressure and ensures the hose’s durability under pressure.Outer Cover: The outer cover is typically constructed from a durable, abrasion-resistant material such as synthetic rubber or thermoplastic. It protects the hose from external damage, including abrasion, UV exposure, and chemical contact.Temperature Range:The hose operates effectively within a specified temperature range, usually from -40°C to +100°C (-40°F to +212°F). Some hoses can handle temperatures outside this range depending on the specific materials used.Flexibility:Designed to be flexible, the R8 hose allows for easier installation and routing in hydraulic systems. Its flexibility helps to prevent kinking and ensures reliable performance even in dynamic applications.Compatibility:Suitable for use with a variety of hydraulic fluids, including petroleum-based oils, water-glycol solutions, and phosphate esters, depending on the internal liner material.Safety Features:Built to meet or exceed industry safety standards. The hose's burst pressure rating is significantly higher than its working pressure to provide a safety margin and prevent potential hose failure.
HIGH PRESSURE HYDRALIC HOSE - R8
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Pressure Rating:Working Pressure: The R8 hydraulic hose is designed for high-pressure applications, usually with a working pressure of up to 70 bar to 100 bar (approximately 1000 psi to 1500 psi). The exact pressure rating can vary based on the hose’s construction and manufacturer specifications.Construction:Inner Liner: The inner liner is made from high-quality thermoplastic materials or synthetic rubber, specifically designed to resist degradation from hydraulic fluids and to ensure smooth, efficient fluid flow.Reinforcement: Features multiple layers of reinforcement, often including high-tensile steel wire braid or synthetic fibers. This reinforcement provides the necessary strength to withstand high pressure and ensures the hose’s durability under pressure.Outer Cover: The outer cover is typically constructed from a durable, abrasion-resistant material such as synthetic rubber or thermoplastic. It protects the hose from external damage, including abrasion, UV exposure, and chemical contact.Temperature Range:The hose operates effectively within a specified temperature range, usually from -40°C to +100°C (-40°F to +212°F). Some hoses can handle temperatures outside this range depending on the specific materials used.Flexibility:Designed to be flexible, the R8 hose allows for easier installation and routing in hydraulic systems. Its flexibility helps to prevent kinking and ensures reliable performance even in dynamic applications.Compatibility:Suitable for use with a variety of hydraulic fluids, including petroleum-based oils, water-glycol solutions, and phosphate esters, depending on the internal liner material.Safety Features:Built to meet or exceed industry safety standards. The hose's burst pressure rating is significantly higher than its working pressure to provide a safety margin and prevent potential hose failure.
HIGH PRESSURE HYDRALIC HOSE - R8
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The R5 hydraulic hose is specifically designed for low-pressure hydraulic applications. It features a construction that provides flexibility and durability while handling moderate pressures and various environmental conditions.1. Construction:Inner Tube: Made of synthetic rubber or thermoplastic material, designed to resist hydraulic fluids and maintain flexibility.Reinforcement: Typically reinforced with textile or fabric braid. This provides structural strength and flexibility but is suitable for lower pressure applications compared to hoses with metal wire reinforcement.Outer Cover: Usually constructed from synthetic rubber or thermoplastic material to protect against abrasion, weathering, and environmental factors. This cover also adds to the hose's durability and flexibility.2. Performance Characteristics:Pressure Rating: Generally rated for lower pressure ranges, around 1500 psi (10 MPa). This makes it ideal for applications where high pressure is not a critical factor.Temperature Range: Often designed to handle temperatures from -40°F to +212°F (-40°C to +100°C), but this can vary based on the specific material and manufacturer specifications.Flexibility: High flexibility due to the textile reinforcement, which allows the hose to bend and twist more easily than high-pressure hoses.
R5
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HYDRAULIC HOSE PIPE SUPPLIER IN VADODARA GUJARATSuitable for hydraulic fluids like mineral and vegCommonly used in high-pressure hydraulic systems, Suitable for hydraulic systems in industries like Used in applications requiring high-pressure fluidAlso used in marine and offshore applications wherLow-pressure hydraulic systemsAir brake systemsAgricultural machineryGeneral industrial applicationsLow-Pressure Hydraulic Systems:Fuel Oil LinesAir and Water LinesLubrication SystemsGeneral Industrial ApplicationsLow-Pressure Hydraulic SystemsGeneral Industrial Fluid TransferAgricultural Machinery:Automotive ApplicationCooling Systems:Automotive RepairConstruction EquipmentIndustrial ApplicationsAgricultural MachineryAerospaceOracle E-Business Suite R1212 RefrigerantR12 in Other FieldsCryogenic CoolingIndustrial RefrigerationLow-Temperature RefrigerationSpecialized Cooling SystemsIndustrial MachineryMining EquipmentOil and Gas IndustryMarine ApplicationsAutomotive IndustryAerospace IndustryIndustrial CleaningConcrete and Surface PreparationPipe and Drain CleaningPaint RemovalSurface Preparation for MaintenanceEnvironmental CleaningConstruction and MiningAutomotiveElectrical SafetyIndustrial and ConstructionAerospace and AutomotiveHydraulic SystemsPneumatic SystemsAutomotive and AerospaceSolar Panel and Wind Turbine ModelsData Collection ToolsInteractive SoftwareSensors and MetersBuilding MaterialsUnderstand the RequirementsPrepare Your MaterialsFocus on STEAM ElementsOrganize Your ApplicationProofread and ReviewSubmit and Follow UpAgricultureConstructionIndustrial:MunicipalIndustriaEmergency ResponseFuel TransferOil HandlingMarineIndustrialCement and Concrete HandlingSand and GravelGrain HandlingFeed TransportOre and Mineral TransferTailings ManagementPowdered IngredientsBulk Food ProductsChemical TransferPharmaceuticalsGranules and PowdersRecycled MaterialsWaste HandlingSurface PreparationFinishing WorkMaintenanceSuitable for use in industries such as manufacturiCommonly used for powering pneumatic tools, machinCommonly used in chemical processing, pharmaceuticSuitable for both suction and discharge applicatioUsed in various industries, including chemical proSuitable for use in environments where high perforIdeal for construction sites, mining operations, dCommonly used for suction and discharge applicatioUsed in construction equipment such as excavators,Applied in agricultural machinery like tractors, hUtilized in automotive applications for hydraulic Construction:Automotive:Applied in automotive hydraulic systems for vehiclSewer Cleaning:Blockage Removal: Effectively clears blockages cauAutomotive Painting:Used for painting cars, trucks, and other vehiclesVehicle Finishes: Ideal for applying automotive paHigh-Pressure Applications: Commonly used in hydraChemical Handling:Fluid Transfer: Suitable for transferring hydrauliPerformance Vehicles: Used in performance and raciAerospace:Aircraft Hydraulic Systems: Employed in aerospace Chemical Processing:Transporting Gases: Used in chemical processing plLaboratory:Gas Handling: Employed in laboratories for handlinIndustrial Equipment:Manufacturing: Utilized in industrial settings forPharmaceutical:Production: Applied in pharmaceutical manufacturinFluid Transfer: Ideal for transferring corrosive oProduction and Handling: Used in pharmaceutical maGas and Fluid Handling: Employed in laboratories fOil and Gas:Extraction and Transport: Used in the oil and gas Repair and Maintenance: Used to power various pneuTools and Equipment: Employed on construction siteManufacturing:Assembly and Production: Used in manufacturing facIndustrial Maintenance:Facility Maintenance: Applied in industrial settinDIY and Home Improvement:Oxy-Acetylene Welding:Welding and Cutting: Used in oxy-acetylene weldingGas Metal Arc Welding (GMAW):Shielding Gas: In gas metal arc welding (GMAW) or Gas Tungsten Arc Welding (GTAW):Shielding Gas: For gas tungsten arc welding (GTAW)Repair and Maintenance: Employed in industrial setFabrication:Metalworking: Used in metal fabrication shops for Air Tools and Equipment: Used to supply compressedWater Supply: Used for water supply and distributiAgriculture:Irrigation: Applied in agricultural settings for iAir-Driven Tools: Used to power various air-drivenSite Maintenance: Used on construction sites for bCommercial:Cleaning and Maintenance: Employed in commercial sFluid Transfer: Used in industrial applications foHigh-Pressure Systems: Employed in high-pressure aCorrosive Fluids: Used to transfer corrosive or haExploration and Production: Applied in the oil andAircraft Systems: Used in aerospace applications f
Material:Inner Liner: Made from stainless steel or other corrosion-resistant alloys. The metal liner provides strength, durability, and resistance to high pressures and temperatures. Stainless steel is commonly used due to its excellent corrosion resistance and mechanical properties.Corrugated Construction: The hose features a corrugated or spiral pattern along its length. This corrugated design allows the hose to flex and bend without kinking, making it easier to route in complex configurations while maintaining fluid flow.Reinforcement: In some designs, the metal hose is reinforced with additional layers of braiding or spiral-wound metal to enhance strength and pressure capability. Reinforcement can also improve the hose’s resistance to external damage and abrasion.Outer Cover: May be covered with an additional layer of metal or protective coating for added durability and protection against environmental factors. This outer cover helps prevent external damage and wear.Pressure Rating:Working Pressure: Corrugated flexible metal hoses are designed to handle a wide range of pressures, often from 10 bar to 40 bar (approximately 150 psi to 580 psi), depending on the hose's construction and reinforcement.Temperature Range:Operating Temperature: Effective across a broad temperature range, typically from -196°C to +600°C (-321°F to +1112°F), depending on the material and construction. This makes them suitable for extreme temperature conditions.Flexibility:Bending Radius: The corrugated design provides significant flexibility, allowing the hose to bend and flex while maintaining its performance. The hose can navigate around obstacles and adapt to various installation scenarios.Chemical Resistance:Compatibility: Metal hoses are resistant to many chemicals, especially when made from stainless steel or other corrosion-resistant alloys. This makes them suitable for transferring fluids and gases that might be corrosive or reactive.Safety Features:Burst Pressure: Designed with a burst pressure well above the working pressure to ensure safety and prevent hose failure. The metal construction provides strength and resilience under high-pressure conditions.
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STANDARD CORRUGATED FLEX
Material:Inner Liner: Made from stainless steel or other corrosion-resistant alloys. The metal liner provides strength, durability, and resistance to high pressures and temperatures. Stainless steel is commonly used due to its excellent corrosion resistance and mechanical properties.Corrugated Construction: The hose features a corrugated or spiral pattern along its length. This corrugated design allows the hose to flex and bend without kinking, making it easier to route in complex configurations while maintaining fluid flow.Reinforcement: In some designs, the metal hose is reinforced with additional layers of braiding or spiral-wound metal to enhance strength and pressure capability. Reinforcement can also improve the hose’s resistance to external damage and abrasion.Outer Cover: May be covered with an additional layer of metal or protective coating for added durability and protection against environmental factors. This outer cover helps prevent external damage and wear.Pressure Rating:Working Pressure: Corrugated flexible metal hoses are designed to handle a wide range of pressures, often from 10 bar to 40 bar (approximately 150 psi to 580 psi), depending on the hose's construction and reinforcement.Temperature Range:Operating Temperature: Effective across a broad temperature range, typically from -196°C to +600°C (-321°F to +1112°F), depending on the material and construction. This makes them suitable for extreme temperature conditions.Flexibility:Bending Radius: The corrugated design provides significant flexibility, allowing the hose to bend and flex while maintaining its performance. The hose can navigate around obstacles and adapt to various installation scenarios.Chemical Resistance:Compatibility: Metal hoses are resistant to many chemicals, especially when made from stainless steel or other corrosion-resistant alloys. This makes them suitable for transferring fluids and gases that might be corrosive or reactive.Safety Features:Burst Pressure: Designed with a burst pressure well above the working pressure to ensure safety and prevent hose failure. The metal construction provides strength and resilience under high-pressure conditions.
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STANDARD CORRUGATED FLEX
Material:Inner Liner: Made from stainless steel or other corrosion-resistant alloys. The metal liner provides strength, durability, and resistance to high pressures and temperatures. Stainless steel is commonly used due to its excellent corrosion resistance and mechanical properties.Corrugated Construction: The hose features a corrugated or spiral pattern along its length. This corrugated design allows the hose to flex and bend without kinking, making it easier to route in complex configurations while maintaining fluid flow.Reinforcement: In some designs, the metal hose is reinforced with additional layers of braiding or spiral-wound metal to enhance strength and pressure capability. Reinforcement can also improve the hose’s resistance to external damage and abrasion.Outer Cover: May be covered with an additional layer of metal or protective coating for added durability and protection against environmental factors. This outer cover helps prevent external damage and wear.Pressure Rating:Working Pressure: Corrugated flexible metal hoses are designed to handle a wide range of pressures, often from 10 bar to 40 bar (approximately 150 psi to 580 psi), depending on the hose's construction and reinforcement.Temperature Range:Operating Temperature: Effective across a broad temperature range, typically from -196°C to +600°C (-321°F to +1112°F), depending on the material and construction. This makes them suitable for extreme temperature conditions.Flexibility:Bending Radius: The corrugated design provides significant flexibility, allowing the hose to bend and flex while maintaining its performance. The hose can navigate around obstacles and adapt to various installation scenarios.Chemical Resistance:Compatibility: Metal hoses are resistant to many chemicals, especially when made from stainless steel or other corrosion-resistant alloys. This makes them suitable for transferring fluids and gases that might be corrosive or reactive.Safety Features:Burst Pressure: Designed with a burst pressure well above the working pressure to ensure safety and prevent hose failure. The metal construction provides strength and resilience under high-pressure conditions.
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STANDARD CORRUGATED FLEX
Material:Inner Liner: Made from stainless steel or other corrosion-resistant alloys. The metal liner provides strength, durability, and resistance to high pressures and temperatures. Stainless steel is commonly used due to its excellent corrosion resistance and mechanical properties.Corrugated Construction: The hose features a corrugated or spiral pattern along its length. This corrugated design allows the hose to flex and bend without kinking, making it easier to route in complex configurations while maintaining fluid flow.Reinforcement: In some designs, the metal hose is reinforced with additional layers of braiding or spiral-wound metal to enhance strength and pressure capability. Reinforcement can also improve the hose’s resistance to external damage and abrasion.Outer Cover: May be covered with an additional layer of metal or protective coating for added durability and protection against environmental factors. This outer cover helps prevent external damage and wear.Pressure Rating:Working Pressure: Corrugated flexible metal hoses are designed to handle a wide range of pressures, often from 10 bar to 40 bar (approximately 150 psi to 580 psi), depending on the hose's construction and reinforcement.Temperature Range:Operating Temperature: Effective across a broad temperature range, typically from -196°C to +600°C (-321°F to +1112°F), depending on the material and construction. This makes them suitable for extreme temperature conditions.Flexibility:Bending Radius: The corrugated design provides significant flexibility, allowing the hose to bend and flex while maintaining its performance. The hose can navigate around obstacles and adapt to various installation scenarios.Chemical Resistance:Compatibility: Metal hoses are resistant to many chemicals, especially when made from stainless steel or other corrosion-resistant alloys. This makes them suitable for transferring fluids and gases that might be corrosive or reactive.Safety Features:Burst Pressure: Designed with a burst pressure well above the working pressure to ensure safety and prevent hose failure. The metal construction provides strength and resilience under high-pressure conditions.
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STANDARD CORRUGATED FLEX
Material:Inner Liner: Made from stainless steel or other corrosion-resistant alloys. The metal liner provides strength, durability, and resistance to high pressures and temperatures. Stainless steel is commonly used due to its excellent corrosion resistance and mechanical properties.Corrugated Construction: The hose features a corrugated or spiral pattern along its length. This corrugated design allows the hose to flex and bend without kinking, making it easier to route in complex configurations while maintaining fluid flow.Reinforcement: In some designs, the metal hose is reinforced with additional layers of braiding or spiral-wound metal to enhance strength and pressure capability. Reinforcement can also improve the hose’s resistance to external damage and abrasion.Outer Cover: May be covered with an additional layer of metal or protective coating for added durability and protection against environmental factors. This outer cover helps prevent external damage and wear.Pressure Rating:Working Pressure: Corrugated flexible metal hoses are designed to handle a wide range of pressures, often from 10 bar to 40 bar (approximately 150 psi to 580 psi), depending on the hose's construction and reinforcement.Temperature Range:Operating Temperature: Effective across a broad temperature range, typically from -196°C to +600°C (-321°F to +1112°F), depending on the material and construction. This makes them suitable for extreme temperature conditions.Flexibility:Bending Radius: The corrugated design provides significant flexibility, allowing the hose to bend and flex while maintaining its performance. The hose can navigate around obstacles and adapt to various installation scenarios.Chemical Resistance:Compatibility: Metal hoses are resistant to many chemicals, especially when made from stainless steel or other corrosion-resistant alloys. This makes them suitable for transferring fluids and gases that might be corrosive or reactive.Safety Features:Burst Pressure: Designed with a burst pressure well above the working pressure to ensure safety and prevent hose failure. The metal construction provides strength and resilience under high-pressure conditions.
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STANDARD CORRUGATED FLEX
Material:Inner Liner: Made from materials such as synthetic rubber (e.g., EPDM, SBR) or thermoplastic (e.g., PVC). The inner liner is designed to handle the pressure and temperature of both air and water, ensuring durability and flexibility.Reinforcement: Typically reinforced with textile braiding or spiral wires made of synthetic fibers or steel. This reinforcement provides the hose with strength and flexibility, allowing it to withstand high pressures and resist kinking.Outer Cover: Constructed from abrasion-resistant rubber or thermoplastic materials. The outer cover protects the hose from external damage, such as cuts, abrasions, and exposure to environmental factors like UV rays and chemicals.Pressure Rating:Working Pressure: Air/water hoses are designed to handle various pressure ranges depending on the hose’s construction. Common pressure ratings are from 6 bar to 20 bar (approximately 90 psi to 300 psi), but some hoses can handle higher pressures.Temperature Range:Operating Temperature: Typically effective within a temperature range from -10°C to +60°C (14°F to 140°F). The specific temperature range can vary based on the hose material and construction.Flexibility:Bending Radius: Designed to be flexible for ease of handling and routing. The hose’s flexibility allows it to be used in various settings without kinking or restricting flow.Safety Features:Burst Pressure: Air/water hoses are built with a burst pressure significantly higher than their working pressure to ensure safety and prevent hose failure. This construction provides a safety margin to handle unexpected pressure surges.
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AIR / WATER HOSE
Material:Inner Liner: Made from materials such as synthetic rubber (e.g., EPDM, SBR) or thermoplastic (e.g., PVC). The inner liner is designed to handle the pressure and temperature of both air and water, ensuring durability and flexibility.Reinforcement: Typically reinforced with textile braiding or spiral wires made of synthetic fibers or steel. This reinforcement provides the hose with strength and flexibility, allowing it to withstand high pressures and resist kinking.Outer Cover: Constructed from abrasion-resistant rubber or thermoplastic materials. The outer cover protects the hose from external damage, such as cuts, abrasions, and exposure to environmental factors like UV rays and chemicals.Pressure Rating:Working Pressure: Air/water hoses are designed to handle various pressure ranges depending on the hose’s construction. Common pressure ratings are from 6 bar to 20 bar (approximately 90 psi to 300 psi), but some hoses can handle higher pressures.Temperature Range:Operating Temperature: Typically effective within a temperature range from -10°C to +60°C (14°F to 140°F). The specific temperature range can vary based on the hose material and construction.Flexibility:Bending Radius: Designed to be flexible for ease of handling and routing. The hose’s flexibility allows it to be used in various settings without kinking or restricting flow.Safety Features:Burst Pressure: Air/water hoses are built with a burst pressure significantly higher than their working pressure to ensure safety and prevent hose failure. This construction provides a safety margin to handle unexpected pressure surges.
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AIR / WATER HOSE
Material:Inner Liner: Made from materials such as synthetic rubber (e.g., EPDM, SBR) or thermoplastic (e.g., PVC). The inner liner is designed to handle the pressure and temperature of both air and water, ensuring durability and flexibility.Reinforcement: Typically reinforced with textile braiding or spiral wires made of synthetic fibers or steel. This reinforcement provides the hose with strength and flexibility, allowing it to withstand high pressures and resist kinking.Outer Cover: Constructed from abrasion-resistant rubber or thermoplastic materials. The outer cover protects the hose from external damage, such as cuts, abrasions, and exposure to environmental factors like UV rays and chemicals.Pressure Rating:Working Pressure: Air/water hoses are designed to handle various pressure ranges depending on the hose’s construction. Common pressure ratings are from 6 bar to 20 bar (approximately 90 psi to 300 psi), but some hoses can handle higher pressures.Temperature Range:Operating Temperature: Typically effective within a temperature range from -10°C to +60°C (14°F to 140°F). The specific temperature range can vary based on the hose material and construction.Flexibility:Bending Radius: Designed to be flexible for ease of handling and routing. The hose’s flexibility allows it to be used in various settings without kinking or restricting flow.Safety Features:Burst Pressure: Air/water hoses are built with a burst pressure significantly higher than their working pressure to ensure safety and prevent hose failure. This construction provides a safety margin to handle unexpected pressure surges.
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AIR / WATER HOSE
Material:Inner Liner: Made from materials such as synthetic rubber (e.g., EPDM, SBR) or thermoplastic (e.g., PVC). The inner liner is designed to handle the pressure and temperature of both air and water, ensuring durability and flexibility.Reinforcement: Typically reinforced with textile braiding or spiral wires made of synthetic fibers or steel. This reinforcement provides the hose with strength and flexibility, allowing it to withstand high pressures and resist kinking.Outer Cover: Constructed from abrasion-resistant rubber or thermoplastic materials. The outer cover protects the hose from external damage, such as cuts, abrasions, and exposure to environmental factors like UV rays and chemicals.Pressure Rating:Working Pressure: Air/water hoses are designed to handle various pressure ranges depending on the hose’s construction. Common pressure ratings are from 6 bar to 20 bar (approximately 90 psi to 300 psi), but some hoses can handle higher pressures.Temperature Range:Operating Temperature: Typically effective within a temperature range from -10°C to +60°C (14°F to 140°F). The specific temperature range can vary based on the hose material and construction.Flexibility:Bending Radius: Designed to be flexible for ease of handling and routing. The hose’s flexibility allows it to be used in various settings without kinking or restricting flow.Safety Features:Burst Pressure: Air/water hoses are built with a burst pressure significantly higher than their working pressure to ensure safety and prevent hose failure. This construction provides a safety margin to handle unexpected pressure surges.
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AIR / WATER HOSE
Material:Inner Liner: Made from synthetic rubber or thermoplastic materials, such as neoprene, nitrile, or PVC, depending on the hose’s intended use. The inner liner must be resistant to the specific gases it will transport, such as oxygen or acetylene.Reinforcement: Typically reinforced with layers of synthetic fabric or braided steel wires to provide strength and flexibility. This reinforcement helps the hose withstand high pressure and mechanical stress.Outer Cover: Constructed from a durable, abrasion-resistant material like synthetic rubber or thermoplastic. The outer cover protects the hose from external damage, such as cuts, abrasions, and exposure to environmental factors.Pressure Rating:Working Pressure: Welding hoses are designed to handle high pressures, typically ranging from 10 bar to 20 bar (approximately 150 psi to 300 psi), depending on the hose’s construction and the specific gases being transported.Temperature Range:Operating Temperature: Generally effective within a temperature range from -20°C to +70°C (-4°F to +158°F). The specific temperature range can vary based on the hose material and construction.Color Coding:Identification: Welding hoses are often color-coded to distinguish between different gases. For example, acetylene hoses are commonly red, while oxygen hoses are typically green. This color coding helps prevent confusion and ensures safety.Flexibility:Bending Radius: Designed to be flexible for ease of handling and routing around equipment and work areas. The hose’s flexibility allows it to be maneuvered without kinking or restricting gas flow.Safety Features:Burst Pressure: Welding hoses are built with a burst pressure much higher than the working pressure to ensure safety and prevent hose failure. This construction provides a safety margin to handle unexpected pressure surges.
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WELDING HOSE
Material:Inner Liner: Made from synthetic rubber or thermoplastic materials, such as neoprene, nitrile, or PVC, depending on the hose’s intended use. The inner liner must be resistant to the specific gases it will transport, such as oxygen or acetylene.Reinforcement: Typically reinforced with layers of synthetic fabric or braided steel wires to provide strength and flexibility. This reinforcement helps the hose withstand high pressure and mechanical stress.Outer Cover: Constructed from a durable, abrasion-resistant material like synthetic rubber or thermoplastic. The outer cover protects the hose from external damage, such as cuts, abrasions, and exposure to environmental factors.Pressure Rating:Working Pressure: Welding hoses are designed to handle high pressures, typically ranging from 10 bar to 20 bar (approximately 150 psi to 300 psi), depending on the hose’s construction and the specific gases being transported.Temperature Range:Operating Temperature: Generally effective within a temperature range from -20°C to +70°C (-4°F to +158°F). The specific temperature range can vary based on the hose material and construction.Color Coding:Identification: Welding hoses are often color-coded to distinguish between different gases. For example, acetylene hoses are commonly red, while oxygen hoses are typically green. This color coding helps prevent confusion and ensures safety.Flexibility:Bending Radius: Designed to be flexible for ease of handling and routing around equipment and work areas. The hose’s flexibility allows it to be maneuvered without kinking or restricting gas flow.Safety Features:Burst Pressure: Welding hoses are built with a burst pressure much higher than the working pressure to ensure safety and prevent hose failure. This construction provides a safety margin to handle unexpected pressure surges.
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WELDING HOSE
Material:Inner Liner: Made from synthetic rubber or thermoplastic materials, such as neoprene, nitrile, or PVC, depending on the hose’s intended use. The inner liner must be resistant to the specific gases it will transport, such as oxygen or acetylene.Reinforcement: Typically reinforced with layers of synthetic fabric or braided steel wires to provide strength and flexibility. This reinforcement helps the hose withstand high pressure and mechanical stress.Outer Cover: Constructed from a durable, abrasion-resistant material like synthetic rubber or thermoplastic. The outer cover protects the hose from external damage, such as cuts, abrasions, and exposure to environmental factors.Pressure Rating:Working Pressure: Welding hoses are designed to handle high pressures, typically ranging from 10 bar to 20 bar (approximately 150 psi to 300 psi), depending on the hose’s construction and the specific gases being transported.Temperature Range:Operating Temperature: Generally effective within a temperature range from -20°C to +70°C (-4°F to +158°F). The specific temperature range can vary based on the hose material and construction.Color Coding:Identification: Welding hoses are often color-coded to distinguish between different gases. For example, acetylene hoses are commonly red, while oxygen hoses are typically green. This color coding helps prevent confusion and ensures safety.Flexibility:Bending Radius: Designed to be flexible for ease of handling and routing around equipment and work areas. The hose’s flexibility allows it to be maneuvered without kinking or restricting gas flow.Safety Features:Burst Pressure: Welding hoses are built with a burst pressure much higher than the working pressure to ensure safety and prevent hose failure. This construction provides a safety margin to handle unexpected pressure surges.
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WELDING HOSE
Material:Inner Liner: Made from synthetic rubber or thermoplastic materials, such as neoprene, nitrile, or PVC, depending on the hose’s intended use. The inner liner must be resistant to the specific gases it will transport, such as oxygen or acetylene.Reinforcement: Typically reinforced with layers of synthetic fabric or braided steel wires to provide strength and flexibility. This reinforcement helps the hose withstand high pressure and mechanical stress.Outer Cover: Constructed from a durable, abrasion-resistant material like synthetic rubber or thermoplastic. The outer cover protects the hose from external damage, such as cuts, abrasions, and exposure to environmental factors.Pressure Rating:Working Pressure: Welding hoses are designed to handle high pressures, typically ranging from 10 bar to 20 bar (approximately 150 psi to 300 psi), depending on the hose’s construction and the specific gases being transported.Temperature Range:Operating Temperature: Generally effective within a temperature range from -20°C to +70°C (-4°F to +158°F). The specific temperature range can vary based on the hose material and construction.Color Coding:Identification: Welding hoses are often color-coded to distinguish between different gases. For example, acetylene hoses are commonly red, while oxygen hoses are typically green. This color coding helps prevent confusion and ensures safety.Flexibility:Bending Radius: Designed to be flexible for ease of handling and routing around equipment and work areas. The hose’s flexibility allows it to be maneuvered without kinking or restricting gas flow.Safety Features:Burst Pressure: Welding hoses are built with a burst pressure much higher than the working pressure to ensure safety and prevent hose failure. This construction provides a safety margin to handle unexpected pressure surges.
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WELDING HOSE
Material:Inner Liner: Made from synthetic rubber or thermoplastic materials, such as neoprene, nitrile, or PVC, depending on the hose’s intended use. The inner liner must be resistant to the specific gases it will transport, such as oxygen or acetylene.Reinforcement: Typically reinforced with layers of synthetic fabric or braided steel wires to provide strength and flexibility. This reinforcement helps the hose withstand high pressure and mechanical stress.Outer Cover: Constructed from a durable, abrasion-resistant material like synthetic rubber or thermoplastic. The outer cover protects the hose from external damage, such as cuts, abrasions, and exposure to environmental factors.Pressure Rating:Working Pressure: Welding hoses are designed to handle high pressures, typically ranging from 10 bar to 20 bar (approximately 150 psi to 300 psi), depending on the hose’s construction and the specific gases being transported.Temperature Range:Operating Temperature: Generally effective within a temperature range from -20°C to +70°C (-4°F to +158°F). The specific temperature range can vary based on the hose material and construction.Color Coding:Identification: Welding hoses are often color-coded to distinguish between different gases. For example, acetylene hoses are commonly red, while oxygen hoses are typically green. This color coding helps prevent confusion and ensures safety.Flexibility:Bending Radius: Designed to be flexible for ease of handling and routing around equipment and work areas. The hose’s flexibility allows it to be maneuvered without kinking or restricting gas flow.Safety Features:Burst Pressure: Welding hoses are built with a burst pressure much higher than the working pressure to ensure safety and prevent hose failure. This construction provides a safety margin to handle unexpected pressure surges.
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WELDING HOSE
Material:Inner Liner: Often made from synthetic rubber (such as SBR or EPDM), polyurethane (PU), or thermoplastic rubber. The inner liner is designed to handle the pressure of compressed air and resist abrasion and wear.Reinforcement: Usually reinforced with textile braiding or spiral wires (such as steel or synthetic fibers) to provide strength and prevent collapse under high pressure. This reinforcement ensures the hose can withstand the pressures of compressed air systems and enhances its durability.Outer Cover: Typically constructed from abrasion-resistant rubber or thermoplastic materials. The outer cover protects the hose from external damage, including cuts, abrasions, and exposure to environmental factors.Pressure Rating:Working Pressure: Pneumatic tool hoses are designed to handle pressures typically ranging from 6 bar to 15 bar (approximately 90 psi to 225 psi), though some hoses can handle higher pressures depending on their design and construction.Temperature Range:Operating Temperature: Usually effective within a temperature range from -20°C to +60°C (-4°F to +140°F). The specific temperature range can vary based on the hose material and construction.Flexibility:Bending Radius: Designed to be flexible for ease of handling and maneuvering. The hose's flexibility allows it to be routed around equipment and obstacles without kinking or restricting airflow.Couplings and Fittings:Connections: Often fitted with quick-connect couplings or fittings that ensure secure attachment to pneumatic tools and compressors. These connections are designed for easy coupling and uncoupling, enhancing efficiency in changing tools or equipment.Safety Features:Burst Pressure: Pneumatic hoses are designed with a burst pressure significantly higher than their working pressure to ensure safety and prevent hose failure. The construction typically includes safety margins to handle unexpected pressure surges.
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PNEUMATIC TOOL HOSE
Material:Inner Liner: Often made from synthetic rubber (such as SBR or EPDM), polyurethane (PU), or thermoplastic rubber. The inner liner is designed to handle the pressure of compressed air and resist abrasion and wear.Reinforcement: Usually reinforced with textile braiding or spiral wires (such as steel or synthetic fibers) to provide strength and prevent collapse under high pressure. This reinforcement ensures the hose can withstand the pressures of compressed air systems and enhances its durability.Outer Cover: Typically constructed from abrasion-resistant rubber or thermoplastic materials. The outer cover protects the hose from external damage, including cuts, abrasions, and exposure to environmental factors.Pressure Rating:Working Pressure: Pneumatic tool hoses are designed to handle pressures typically ranging from 6 bar to 15 bar (approximately 90 psi to 225 psi), though some hoses can handle higher pressures depending on their design and construction.Temperature Range:Operating Temperature: Usually effective within a temperature range from -20°C to +60°C (-4°F to +140°F). The specific temperature range can vary based on the hose material and construction.Flexibility:Bending Radius: Designed to be flexible for ease of handling and maneuvering. The hose's flexibility allows it to be routed around equipment and obstacles without kinking or restricting airflow.Couplings and Fittings:Connections: Often fitted with quick-connect couplings or fittings that ensure secure attachment to pneumatic tools and compressors. These connections are designed for easy coupling and uncoupling, enhancing efficiency in changing tools or equipment.Safety Features:Burst Pressure: Pneumatic hoses are designed with a burst pressure significantly higher than their working pressure to ensure safety and prevent hose failure. The construction typically includes safety margins to handle unexpected pressure surges.
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PNEUMATIC TOOL HOSE
Material:Inner Liner: Often made from synthetic rubber (such as SBR or EPDM), polyurethane (PU), or thermoplastic rubber. The inner liner is designed to handle the pressure of compressed air and resist abrasion and wear.Reinforcement: Usually reinforced with textile braiding or spiral wires (such as steel or synthetic fibers) to provide strength and prevent collapse under high pressure. This reinforcement ensures the hose can withstand the pressures of compressed air systems and enhances its durability.Outer Cover: Typically constructed from abrasion-resistant rubber or thermoplastic materials. The outer cover protects the hose from external damage, including cuts, abrasions, and exposure to environmental factors.Pressure Rating:Working Pressure: Pneumatic tool hoses are designed to handle pressures typically ranging from 6 bar to 15 bar (approximately 90 psi to 225 psi), though some hoses can handle higher pressures depending on their design and construction.Temperature Range:Operating Temperature: Usually effective within a temperature range from -20°C to +60°C (-4°F to +140°F). The specific temperature range can vary based on the hose material and construction.Flexibility:Bending Radius: Designed to be flexible for ease of handling and maneuvering. The hose's flexibility allows it to be routed around equipment and obstacles without kinking or restricting airflow.Couplings and Fittings:Connections: Often fitted with quick-connect couplings or fittings that ensure secure attachment to pneumatic tools and compressors. These connections are designed for easy coupling and uncoupling, enhancing efficiency in changing tools or equipment.Safety Features:Burst Pressure: Pneumatic hoses are designed with a burst pressure significantly higher than their working pressure to ensure safety and prevent hose failure. The construction typically includes safety margins to handle unexpected pressure surges.
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PNEUMATIC TOOL HOSE
Material:Inner Liner: Often made from synthetic rubber (such as SBR or EPDM), polyurethane (PU), or thermoplastic rubber. The inner liner is designed to handle the pressure of compressed air and resist abrasion and wear.Reinforcement: Usually reinforced with textile braiding or spiral wires (such as steel or synthetic fibers) to provide strength and prevent collapse under high pressure. This reinforcement ensures the hose can withstand the pressures of compressed air systems and enhances its durability.Outer Cover: Typically constructed from abrasion-resistant rubber or thermoplastic materials. The outer cover protects the hose from external damage, including cuts, abrasions, and exposure to environmental factors.Pressure Rating:Working Pressure: Pneumatic tool hoses are designed to handle pressures typically ranging from 6 bar to 15 bar (approximately 90 psi to 225 psi), though some hoses can handle higher pressures depending on their design and construction.Temperature Range:Operating Temperature: Usually effective within a temperature range from -20°C to +60°C (-4°F to +140°F). The specific temperature range can vary based on the hose material and construction.Flexibility:Bending Radius: Designed to be flexible for ease of handling and maneuvering. The hose's flexibility allows it to be routed around equipment and obstacles without kinking or restricting airflow.Couplings and Fittings:Connections: Often fitted with quick-connect couplings or fittings that ensure secure attachment to pneumatic tools and compressors. These connections are designed for easy coupling and uncoupling, enhancing efficiency in changing tools or equipment.Safety Features:Burst Pressure: Pneumatic hoses are designed with a burst pressure significantly higher than their working pressure to ensure safety and prevent hose failure. The construction typically includes safety margins to handle unexpected pressure surges.
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PNEUMATIC TOOL HOSE
Material:Inner Liner: Made from PTFE (Polytetrafluoroethylene), a high-performance fluoropolymer known for its exceptional chemical resistance, non-stick properties, and high-temperature stability.Convoluted Construction: The hose features a corrugated or convoluted structure, which means it has a series of alternating ridges and grooves along its length. This design enhances flexibility and allows the hose to bend and flex without kinking.Reinforcement: Typically reinforced with stainless steel braid or other high-strength materials. This reinforcement provides strength, burst resistance, and durability, and helps the hose withstand high pressures and external forces.Outer Cover: Often includes an additional protective outer cover made from materials such as rubber or thermoplastic. This cover protects the hose from abrasion, environmental factors, and other external damage.Pressure Rating:Working Pressure: PTFE convoluted hoses are designed to handle a range of pressures, usually from 10 bar to 40 bar (approximately 150 psi to 580 psi), depending on the specific construction and application.Temperature Range:Operating Temperature: Capable of operating effectively across a wide temperature range, from -70°C to +260°C (-94°F to +500°F). This makes them suitable for extreme temperature conditions.Chemical Resistance:Compatibility: PTFE is highly resistant to a broad spectrum of chemicals, including acids, bases, solvents, and gases. The convoluted design adds additional flexibility while maintaining chemical resistance.Flexibility:Bending Radius: The convoluted structure allows the hose to flex and bend easily, accommodating tight spaces and complex routing without compromising performance. The hose’s flexibility is enhanced by its corrugated design.Safety Features:Reinforcement: The stainless steel or high-strength reinforcement helps prevent hose collapse under vacuum conditions and ensures durability against high pressures.Compliance: Often manufactured to meet specific industry standards and regulations for chemical handling and safety.Applications:
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PTFE CONVOLITED HOSE
Material:Inner Liner: Made from PTFE (Polytetrafluoroethylene), a high-performance fluoropolymer known for its exceptional chemical resistance, non-stick properties, and high-temperature stability.Convoluted Construction: The hose features a corrugated or convoluted structure, which means it has a series of alternating ridges and grooves along its length. This design enhances flexibility and allows the hose to bend and flex without kinking.Reinforcement: Typically reinforced with stainless steel braid or other high-strength materials. This reinforcement provides strength, burst resistance, and durability, and helps the hose withstand high pressures and external forces.Outer Cover: Often includes an additional protective outer cover made from materials such as rubber or thermoplastic. This cover protects the hose from abrasion, environmental factors, and other external damage.Pressure Rating:Working Pressure: PTFE convoluted hoses are designed to handle a range of pressures, usually from 10 bar to 40 bar (approximately 150 psi to 580 psi), depending on the specific construction and application.Temperature Range:Operating Temperature: Capable of operating effectively across a wide temperature range, from -70°C to +260°C (-94°F to +500°F). This makes them suitable for extreme temperature conditions.Chemical Resistance:Compatibility: PTFE is highly resistant to a broad spectrum of chemicals, including acids, bases, solvents, and gases. The convoluted design adds additional flexibility while maintaining chemical resistance.Flexibility:Bending Radius: The convoluted structure allows the hose to flex and bend easily, accommodating tight spaces and complex routing without compromising performance. The hose’s flexibility is enhanced by its corrugated design.Safety Features:Reinforcement: The stainless steel or high-strength reinforcement helps prevent hose collapse under vacuum conditions and ensures durability against high pressures.Compliance: Often manufactured to meet specific industry standards and regulations for chemical handling and safety.Applications:
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PTFE CONVOLITED HOSE
Material:Inner Liner: Made from PTFE (Polytetrafluoroethylene), a high-performance fluoropolymer known for its exceptional chemical resistance, non-stick properties, and high-temperature stability.Convoluted Construction: The hose features a corrugated or convoluted structure, which means it has a series of alternating ridges and grooves along its length. This design enhances flexibility and allows the hose to bend and flex without kinking.Reinforcement: Typically reinforced with stainless steel braid or other high-strength materials. This reinforcement provides strength, burst resistance, and durability, and helps the hose withstand high pressures and external forces.Outer Cover: Often includes an additional protective outer cover made from materials such as rubber or thermoplastic. This cover protects the hose from abrasion, environmental factors, and other external damage.Pressure Rating:Working Pressure: PTFE convoluted hoses are designed to handle a range of pressures, usually from 10 bar to 40 bar (approximately 150 psi to 580 psi), depending on the specific construction and application.Temperature Range:Operating Temperature: Capable of operating effectively across a wide temperature range, from -70°C to +260°C (-94°F to +500°F). This makes them suitable for extreme temperature conditions.Chemical Resistance:Compatibility: PTFE is highly resistant to a broad spectrum of chemicals, including acids, bases, solvents, and gases. The convoluted design adds additional flexibility while maintaining chemical resistance.Flexibility:Bending Radius: The convoluted structure allows the hose to flex and bend easily, accommodating tight spaces and complex routing without compromising performance. The hose’s flexibility is enhanced by its corrugated design.Safety Features:Reinforcement: The stainless steel or high-strength reinforcement helps prevent hose collapse under vacuum conditions and ensures durability against high pressures.Compliance: Often manufactured to meet specific industry standards and regulations for chemical handling and safety.Applications:
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PTFE CONVOLITED HOSE
Material:Inner Liner: Made from PTFE (Polytetrafluoroethylene), a high-performance fluoropolymer known for its exceptional chemical resistance, non-stick properties, and high-temperature stability.Convoluted Construction: The hose features a corrugated or convoluted structure, which means it has a series of alternating ridges and grooves along its length. This design enhances flexibility and allows the hose to bend and flex without kinking.Reinforcement: Typically reinforced with stainless steel braid or other high-strength materials. This reinforcement provides strength, burst resistance, and durability, and helps the hose withstand high pressures and external forces.Outer Cover: Often includes an additional protective outer cover made from materials such as rubber or thermoplastic. This cover protects the hose from abrasion, environmental factors, and other external damage.Pressure Rating:Working Pressure: PTFE convoluted hoses are designed to handle a range of pressures, usually from 10 bar to 40 bar (approximately 150 psi to 580 psi), depending on the specific construction and application.Temperature Range:Operating Temperature: Capable of operating effectively across a wide temperature range, from -70°C to +260°C (-94°F to +500°F). This makes them suitable for extreme temperature conditions.Chemical Resistance:Compatibility: PTFE is highly resistant to a broad spectrum of chemicals, including acids, bases, solvents, and gases. The convoluted design adds additional flexibility while maintaining chemical resistance.Flexibility:Bending Radius: The convoluted structure allows the hose to flex and bend easily, accommodating tight spaces and complex routing without compromising performance. The hose’s flexibility is enhanced by its corrugated design.Safety Features:Reinforcement: The stainless steel or high-strength reinforcement helps prevent hose collapse under vacuum conditions and ensures durability against high pressures.Compliance: Often manufactured to meet specific industry standards and regulations for chemical handling and safety.Applications:
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PTFE CONVOLITED HOSE
Material:Inner Liner: Made from PTFE, a high-performance fluoropolymer known for its chemical resistance, non-reactivity, and high-temperature tolerance. PTFE’s low friction properties ensure smooth fluid flow and minimal pressure drop.Reinforcement: Typically reinforced with stainless steel braiding or other high-strength materials. This reinforcement adds mechanical strength, helps the hose withstand higher pressures, and provides durability against external damage.Outer Cover: The outer cover is often made from additional layers of protective material, such as a rubber or thermoplastic compound, which enhances abrasion resistance and protects the hose from environmental factors.Pressure Rating:Working Pressure: PTFE gas hoses are designed to handle a range of pressures, from low to high, depending on the hose construction and application requirements. Typical working pressures can vary from 10 bar to 50 bar (approximately 150 psi to 725 psi), with some designs accommodating higher pressures.Temperature Range:Operating Temperature: PTFE hoses can operate effectively across a wide temperature range, from -70°C to +260°C (-94°F to +500°F), making them suitable for extreme temperature conditions.Chemical Resistance:Compatibility: PTFE’s inherent chemical resistance makes these hoses ideal for handling gases that are corrosive, reactive, or otherwise harsh. They are compatible with a wide range of chemicals, including acids, bases, solvents, and gases.Flexibility:Bending Radius: Designed to be flexible while maintaining durability, allowing for easier routing and installation in various setups. The flexibility can depend on the reinforcement and outer cover used.Safety Features:Reinforcement: Stainless steel or other high-strength reinforcement layers help prevent hose collapse under vacuum conditions and provide burst resistance.Compliance: Often manufactured to meet specific industry standards and regulations for gas handling and safety.
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PTFE GAS HOSE
Material:Inner Liner: Made from PTFE, a high-performance fluoropolymer known for its chemical resistance, non-reactivity, and high-temperature tolerance. PTFE’s low friction properties ensure smooth fluid flow and minimal pressure drop.Reinforcement: Typically reinforced with stainless steel braiding or other high-strength materials. This reinforcement adds mechanical strength, helps the hose withstand higher pressures, and provides durability against external damage.Outer Cover: The outer cover is often made from additional layers of protective material, such as a rubber or thermoplastic compound, which enhances abrasion resistance and protects the hose from environmental factors.Pressure Rating:Working Pressure: PTFE gas hoses are designed to handle a range of pressures, from low to high, depending on the hose construction and application requirements. Typical working pressures can vary from 10 bar to 50 bar (approximately 150 psi to 725 psi), with some designs accommodating higher pressures.Temperature Range:Operating Temperature: PTFE hoses can operate effectively across a wide temperature range, from -70°C to +260°C (-94°F to +500°F), making them suitable for extreme temperature conditions.Chemical Resistance:Compatibility: PTFE’s inherent chemical resistance makes these hoses ideal for handling gases that are corrosive, reactive, or otherwise harsh. They are compatible with a wide range of chemicals, including acids, bases, solvents, and gases.Flexibility:Bending Radius: Designed to be flexible while maintaining durability, allowing for easier routing and installation in various setups. The flexibility can depend on the reinforcement and outer cover used.Safety Features:Reinforcement: Stainless steel or other high-strength reinforcement layers help prevent hose collapse under vacuum conditions and provide burst resistance.Compliance: Often manufactured to meet specific industry standards and regulations for gas handling and safety.
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PTFE GAS HOSE
Material:Inner Liner: Made from PTFE, a high-performance fluoropolymer known for its chemical resistance, non-reactivity, and high-temperature tolerance. PTFE’s low friction properties ensure smooth fluid flow and minimal pressure drop.Reinforcement: Typically reinforced with stainless steel braiding or other high-strength materials. This reinforcement adds mechanical strength, helps the hose withstand higher pressures, and provides durability against external damage.Outer Cover: The outer cover is often made from additional layers of protective material, such as a rubber or thermoplastic compound, which enhances abrasion resistance and protects the hose from environmental factors.Pressure Rating:Working Pressure: PTFE gas hoses are designed to handle a range of pressures, from low to high, depending on the hose construction and application requirements. Typical working pressures can vary from 10 bar to 50 bar (approximately 150 psi to 725 psi), with some designs accommodating higher pressures.Temperature Range:Operating Temperature: PTFE hoses can operate effectively across a wide temperature range, from -70°C to +260°C (-94°F to +500°F), making them suitable for extreme temperature conditions.Chemical Resistance:Compatibility: PTFE’s inherent chemical resistance makes these hoses ideal for handling gases that are corrosive, reactive, or otherwise harsh. They are compatible with a wide range of chemicals, including acids, bases, solvents, and gases.Flexibility:Bending Radius: Designed to be flexible while maintaining durability, allowing for easier routing and installation in various setups. The flexibility can depend on the reinforcement and outer cover used.Safety Features:Reinforcement: Stainless steel or other high-strength reinforcement layers help prevent hose collapse under vacuum conditions and provide burst resistance.Compliance: Often manufactured to meet specific industry standards and regulations for gas handling and safety.
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PTFE GAS HOSE
Material:Inner Liner: Made from PTFE, a high-performance fluoropolymer known for its chemical resistance, non-reactivity, and high-temperature tolerance. PTFE’s low friction properties ensure smooth fluid flow and minimal pressure drop.Reinforcement: Typically reinforced with stainless steel braiding or other high-strength materials. This reinforcement adds mechanical strength, helps the hose withstand higher pressures, and provides durability against external damage.Outer Cover: The outer cover is often made from additional layers of protective material, such as a rubber or thermoplastic compound, which enhances abrasion resistance and protects the hose from environmental factors.Pressure Rating:Working Pressure: PTFE gas hoses are designed to handle a range of pressures, from low to high, depending on the hose construction and application requirements. Typical working pressures can vary from 10 bar to 50 bar (approximately 150 psi to 725 psi), with some designs accommodating higher pressures.Temperature Range:Operating Temperature: PTFE hoses can operate effectively across a wide temperature range, from -70°C to +260°C (-94°F to +500°F), making them suitable for extreme temperature conditions.Chemical Resistance:Compatibility: PTFE’s inherent chemical resistance makes these hoses ideal for handling gases that are corrosive, reactive, or otherwise harsh. They are compatible with a wide range of chemicals, including acids, bases, solvents, and gases.Flexibility:Bending Radius: Designed to be flexible while maintaining durability, allowing for easier routing and installation in various setups. The flexibility can depend on the reinforcement and outer cover used.Safety Features:Reinforcement: Stainless steel or other high-strength reinforcement layers help prevent hose collapse under vacuum conditions and provide burst resistance.Compliance: Often manufactured to meet specific industry standards and regulations for gas handling and safety.
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PTFE GAS HOSE
Standard and Designation:SAE Standard: The R 14 designation is part of SAE J517, which specifies hydraulic hoses designed to handle high-pressure applications. This standard outlines the construction, performance, and testing requirements for such hoses.Construction:Inner Liner: Typically made from a high-quality PTFE (Polytetrafluoroethylene) or similar fluoropolymer material. PTFE provides excellent chemical resistance and low friction, ensuring smooth fluid flow and compatibility with a wide range of hydraulic fluids.Reinforcement: The hose is reinforced with multiple layers of steel braiding. This reinforcement provides the necessary strength to withstand high pressures and resist external damage.Outer Cover: Usually made from a durable synthetic rubber or thermoplastic material that offers protection against abrasion, weathering, and chemicals. The outer cover is designed to extend the hose’s service life and enhance its durability.Pressure Rating:Working Pressure: R 14 hoses are designed to handle high pressures, typically up to 30 bar to 70 bar (approximately 450 psi to 1000 psi), depending on the specific design and application.Temperature Range:Operating Temperature: Generally operates effectively within a temperature range from -40°C to +150°C (-40°F to +302°F). The specific temperature range can vary based on the hose’s construction materials.Flexibility:Flexibility and Bending Radius: Designed to be flexible, making it easier to handle and install in various applications. The hose typically has a tight bending radius, allowing it to be used in confined spaces.Chemical Resistance:Compatibility: The PTFE liner provides excellent chemical resistance, making the hose suitable for use with a wide range of hydraulic fluids, including aggressive chemicals, oils, and solvents.
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R 14
Standard and Designation:SAE Standard: The R 14 designation is part of SAE J517, which specifies hydraulic hoses designed to handle high-pressure applications. This standard outlines the construction, performance, and testing requirements for such hoses.Construction:Inner Liner: Typically made from a high-quality PTFE (Polytetrafluoroethylene) or similar fluoropolymer material. PTFE provides excellent chemical resistance and low friction, ensuring smooth fluid flow and compatibility with a wide range of hydraulic fluids.Reinforcement: The hose is reinforced with multiple layers of steel braiding. This reinforcement provides the necessary strength to withstand high pressures and resist external damage.Outer Cover: Usually made from a durable synthetic rubber or thermoplastic material that offers protection against abrasion, weathering, and chemicals. The outer cover is designed to extend the hose’s service life and enhance its durability.Pressure Rating:Working Pressure: R 14 hoses are designed to handle high pressures, typically up to 30 bar to 70 bar (approximately 450 psi to 1000 psi), depending on the specific design and application.Temperature Range:Operating Temperature: Generally operates effectively within a temperature range from -40°C to +150°C (-40°F to +302°F). The specific temperature range can vary based on the hose’s construction materials.Flexibility:Flexibility and Bending Radius: Designed to be flexible, making it easier to handle and install in various applications. The hose typically has a tight bending radius, allowing it to be used in confined spaces.Chemical Resistance:Compatibility: The PTFE liner provides excellent chemical resistance, making the hose suitable for use with a wide range of hydraulic fluids, including aggressive chemicals, oils, and solvents.
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R 14
Standard and Designation:SAE Standard: The R 14 designation is part of SAE J517, which specifies hydraulic hoses designed to handle high-pressure applications. This standard outlines the construction, performance, and testing requirements for such hoses.Construction:Inner Liner: Typically made from a high-quality PTFE (Polytetrafluoroethylene) or similar fluoropolymer material. PTFE provides excellent chemical resistance and low friction, ensuring smooth fluid flow and compatibility with a wide range of hydraulic fluids.Reinforcement: The hose is reinforced with multiple layers of steel braiding. This reinforcement provides the necessary strength to withstand high pressures and resist external damage.Outer Cover: Usually made from a durable synthetic rubber or thermoplastic material that offers protection against abrasion, weathering, and chemicals. The outer cover is designed to extend the hose’s service life and enhance its durability.Pressure Rating:Working Pressure: R 14 hoses are designed to handle high pressures, typically up to 30 bar to 70 bar (approximately 450 psi to 1000 psi), depending on the specific design and application.Temperature Range:Operating Temperature: Generally operates effectively within a temperature range from -40°C to +150°C (-40°F to +302°F). The specific temperature range can vary based on the hose’s construction materials.Flexibility:Flexibility and Bending Radius: Designed to be flexible, making it easier to handle and install in various applications. The hose typically has a tight bending radius, allowing it to be used in confined spaces.Chemical Resistance:Compatibility: The PTFE liner provides excellent chemical resistance, making the hose suitable for use with a wide range of hydraulic fluids, including aggressive chemicals, oils, and solvents.
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R 14
Type:Spray Gun: A tool used for applying paint or coating materials in a fine mist. It provides an even, smooth application and is often used in various professional and DIY projects.Pressure and Flow Rate:Pressure: Paint spray guns usually operate at varying pressures, typically ranging from 1.5 to 3 bar (approximately 22 to 45 psi) for general applications. The
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PAINT SPRAY - 1 W
Pressure Rating:Pressure: The sewer jet operates at a high pressure of 3000 PSI, which allows it to deliver powerful water jets to dislodge and remove stubborn blockages and debris from sewer pipes and drains.Construction:Hose: Typically made from reinforced rubber or thermoplastic materials to handle the high pressure without bursting. The hose is often reinforced with multiple layers of high-tensile steel wire or synthetic fibers to ensure durability and strength.Nozzle: Equipped with a high-pressure nozzle that directs the water stream effectively. The nozzle design can vary, including single or multiple jet nozzles, to optimize cleaning efficiency and reach. Common nozzle configurations include rotating nozzles that help to agitate and break up debris.Operating Mechanism:Water Supply: The sewer jet connects to a high-pressure water supply, which is typically provided by a specialized pump. The pump generates the high-pressure water stream required for effective cleaning.Pressure Control: Includes mechanisms for controlling the water pressure and flow rate, allowing the operator to adjust the intensity of the jet according to the cleaning requirements.Temperature Range:The hose and equipment are designed to handle high-pressure water at various temperatures, though the specific temperature range can depend on the hose material and construction. Typically, temperatures range from ambient to hot water (up to 60°C or 140°F) for enhanced cleaning power.Durability:Built to withstand the rigors of high-pressure operation and harsh environments. The components are designed for long-term use with minimal maintenance.Safety Features:Designed with safety features such as pressure relief valves and protective covers to prevent accidents and ensure safe operation. Proper training and safety precautions are essential when operating high-pressure equipment.
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SEWER JET - 3000 PSI
Pressure Rating:Working Pressure: The R8 hydraulic hose is designed for high-pressure applications, usually with a working pressure of up to 70 bar to 100 bar (approximately 1000 psi to 1500 psi). The exact pressure rating can vary based on the hose’s construction and manufacturer specifications.Construction:Inner Liner: The inner liner is made from high-quality thermoplastic materials or synthetic rubber, specifically designed to resist degradation from hydraulic fluids and to ensure smooth, efficient fluid flow.Reinforcement: Features multiple layers of reinforcement, often including high-tensile steel wire braid or synthetic fibers. This reinforcement provides the necessary strength to withstand high pressure and ensures the hose’s durability under pressure.Outer Cover: The outer cover is typically constructed from a durable, abrasion-resistant material such as synthetic rubber or thermoplastic. It protects the hose from external damage, including abrasion, UV exposure, and chemical contact.Temperature Range:The hose operates effectively within a specified temperature range, usually from -40°C to +100°C (-40°F to +212°F). Some hoses can handle temperatures outside this range depending on the specific materials used.Flexibility:Designed to be flexible, the R8 hose allows for easier installation and routing in hydraulic systems. Its flexibility helps to prevent kinking and ensures reliable performance even in dynamic applications.Compatibility:Suitable for use with a variety of hydraulic fluids, including petroleum-based oils, water-glycol solutions, and phosphate esters, depending on the internal liner material.Safety Features:Built to meet or exceed industry safety standards. The hose's burst pressure rating is significantly higher than its working pressure to provide a safety margin and prevent potential hose failure.
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HIGH PRESSURE HYDRALIC H
Pressure Rating:Working Pressure: The R8 hydraulic hose is designed for high-pressure applications, usually with a working pressure of up to 70 bar to 100 bar (approximately 1000 psi to 1500 psi). The exact pressure rating can vary based on the hose’s construction and manufacturer specifications.Construction:Inner Liner: The inner liner is made from high-quality thermoplastic materials or synthetic rubber, specifically designed to resist degradation from hydraulic fluids and to ensure smooth, efficient fluid flow.Reinforcement: Features multiple layers of reinforcement, often including high-tensile steel wire braid or synthetic fibers. This reinforcement provides the necessary strength to withstand high pressure and ensures the hose’s durability under pressure.Outer Cover: The outer cover is typically constructed from a durable, abrasion-resistant material such as synthetic rubber or thermoplastic. It protects the hose from external damage, including abrasion, UV exposure, and chemical contact.Temperature Range:The hose operates effectively within a specified temperature range, usually from -40°C to +100°C (-40°F to +212°F). Some hoses can handle temperatures outside this range depending on the specific materials used.Flexibility:Designed to be flexible, the R8 hose allows for easier installation and routing in hydraulic systems. Its flexibility helps to prevent kinking and ensures reliable performance even in dynamic applications.Compatibility:Suitable for use with a variety of hydraulic fluids, including petroleum-based oils, water-glycol solutions, and phosphate esters, depending on the internal liner material.Safety Features:Built to meet or exceed industry safety standards. The hose's burst pressure rating is significantly higher than its working pressure to provide a safety margin and prevent potential hose failure.
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HIGH PRESSURE HYDRALIC H
The R5 hydraulic hose is specifically designed for low-pressure hydraulic applications. It features a construction that provides flexibility and durability while handling moderate pressures and various environmental conditions.1. Construction:Inner Tube: Made of synthetic rubber or thermoplastic material, designed to resist hydraulic fluids and maintain flexibility.Reinforcement: Typically reinforced with textile or fabric braid. This provides structural strength and flexibility but is suitable for lower pressure applications compared to hoses with metal wire reinforcement.Outer Cover: Usually constructed from synthetic rubber or thermoplastic material to protect against abrasion, weathering, and environmental factors. This cover also adds to the hose's durability and flexibility.2. Performance Characteristics:Pressure Rating: Generally rated for lower pressure ranges, around 1500 psi (10 MPa). This makes it ideal for applications where high pressure is not a critical factor.Temperature Range: Often designed to handle temperatures from -40°F to +212°F (-40°C to +100°C), but this can vary based on the specific material and manufacturer specifications.Flexibility: High flexibility due to the textile reinforcement, which allows the hose to bend and twist more easily than high-pressure hoses.
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R5

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HYDRAULIC HOSE PIPE SUPPLIER IN VADODARA GUJARAT |Suitable for hydraulic fluids like mineral and veg |Commonly used in high-pressure hydraulic systems, |Suitable for hydraulic systems in industries like |Used in applications requiring high-pressure fluid |Also used in marine and offshore applications wher |Low-pressure hydraulic systems |Air brake systems |Agricultural machinery |General industrial applications |Low-Pressure Hydraulic Systems: |Fuel Oil Lines |Air and Water Lines |Lubrication Systems |General Industrial Applications |Low-Pressure Hydraulic Systems |General Industrial Fluid Transfer |Agricultural Machinery: |Automotive Application |Cooling Systems: |Automotive Repair |Construction Equipment |Industrial Applications |Agricultural Machinery |Aerospace |Oracle E-Business Suite R12 |12 Refrigerant |R12 in Other Fields |Cryogenic Cooling |Industrial Refrigeration |Low-Temperature Refrigeration |Specialized Cooling Systems |Industrial Machinery |Mining Equipment |Oil and Gas Industry |Marine Applications |Automotive Industry |Aerospace Industry |Industrial Cleaning |Concrete and Surface Preparation |Pipe and Drain Cleaning |Paint Removal |Surface Preparation for Maintenance |Environmental Cleaning |Construction and Mining |Automotive |Electrical Safety |Industrial and Construction |Aerospace and Automotive |Hydraulic Systems |Pneumatic Systems |Automotive and Aerospace |Solar Panel and Wind Turbine Models |Data Collection Tools |Interactive Software |Sensors and Meters |Building Materials |Understand the Requirements |Prepare Your Materials |Focus on STEAM Elements |Organize Your Application |Proofread and Review |Submit and Follow Up |Agriculture |Construction |Industrial: |Municipal |Industria |Emergency Response |Fuel Transfer |Oil Handling |Marine |Industrial |Cement and Concrete Handling |Sand and Gravel |Grain Handling |Feed Transport |Ore and Mineral Transfer |Tailings Management |Powdered Ingredients |Bulk Food Products |Chemical Transfer |Pharmaceuticals |Granules and Powders |Recycled Materials |Waste Handling |Surface Preparation |Finishing Work |Maintenance |Suitable for use in industries such as manufacturi |Commonly used for powering pneumatic tools, machin |Commonly used in chemical processing, pharmaceutic |Suitable for both suction and discharge applicatio |Used in various industries, including chemical pro |Suitable for use in environments where high perfor |Ideal for construction sites, mining operations, d |Commonly used for suction and discharge applicatio |Used in construction equipment such as excavators, |Applied in agricultural machinery like tractors, h |Utilized in automotive applications for hydraulic |Construction: |Automotive: |Applied in automotive hydraulic systems for vehicl |Sewer Cleaning: |Blockage Removal: Effectively clears blockages cau |Automotive Painting: |Used for painting cars, trucks, and other vehicles |Vehicle Finishes: Ideal for applying automotive pa |High-Pressure Applications: Commonly used in hydra |Chemical Handling: |Fluid Transfer: Suitable for transferring hydrauli |Performance Vehicles: Used in performance and raci |Aerospace: |Aircraft Hydraulic Systems: Employed in aerospace |Chemical Processing: |Transporting Gases: Used in chemical processing pl |Laboratory: |Gas Handling: Employed in laboratories for handlin |Industrial Equipment: |Manufacturing: Utilized in industrial settings for |Pharmaceutical: |Production: Applied in pharmaceutical manufacturin |Fluid Transfer: Ideal for transferring corrosive o |Production and Handling: Used in pharmaceutical ma |Gas and Fluid Handling: Employed in laboratories f |Oil and Gas: |Extraction and Transport: Used in the oil and gas |Repair and Maintenance: Used to power various pneu |Tools and Equipment: Employed on construction site |Manufacturing: |Assembly and Production: Used in manufacturing fac |Industrial Maintenance: |Facility Maintenance: Applied in industrial settin |DIY and Home Improvement: |Oxy-Acetylene Welding: |Welding and Cutting: Used in oxy-acetylene welding |Gas Metal Arc Welding (GMAW): |Shielding Gas: In gas metal arc welding (GMAW) or |Gas Tungsten Arc Welding (GTAW): |Shielding Gas: For gas tungsten arc welding (GTAW) |Repair and Maintenance: Employed in industrial set |Fabrication: |Metalworking: Used in metal fabrication shops for |Air Tools and Equipment: Used to supply compressed |Water Supply: Used for water supply and distributi |Agriculture: |Irrigation: Applied in agricultural settings for i |Air-Driven Tools: Used to power various air-driven |Site Maintenance: Used on construction sites for b |Commercial: |Cleaning and Maintenance: Employed in commercial s |Fluid Transfer: Used in industrial applications fo |High-Pressure Systems: Employed in high-pressure a |Corrosive Fluids: Used to transfer corrosive or ha |Exploration and Production: Applied in the oil and |Aircraft Systems: Used in aerospace applications f

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