Experience the versatility of rubber tubing, a tubular marvel crafted from premium rubber compounds. Featuring an inner and outer protective rubber layer, along with a sturdy skeleton layer, this tubing excels at transporting gases, liquids, slurries, or granular materials. Its core function is to facilitate seamless media transmission, utilizing its elastic sealing and pressure-resilience capabilities. Widely adopted across diverse sectors, including industry, automotive, and medical treatment, rubber tubing stands as a testament to innovation and practicality.
1. Introduction to the Exquisite Rubber Pipe Material Selection
Crude Rubber: Known for its remarkable elasticity, exceptional wear resistance, and flexibility against bending and scratching, this material is ideal for low-pressure environments.
Protobutadiene Rubber (SBR): Boasting excellent wear resistance and cost-effectiveness, though with limited oil resistance, it's a budget-friendly choice for various applications.
Cis-Polybutadiene (BR): Offers superb moisture resistance and outstanding low-temperature elasticity, remaining resilient even at -50ºC, perfect for challenging conditions.
Nitrile Rubber (NBR): Known for its unparalleled oil resistance, especially against mineral and lubricating oils, though with reduced ozone and high-temperature resilience.
Chloroprene Rubber (CR): Balancing oil, ozone, and aging resistance, this material offers comprehensive performance benefits for versatile applications.
EPDM Rubber (EPDM): Exceptional high-temperature resilience (-50~150ºC) and robust weather resistance make this ideal for prolonged outdoor exposure.
Fluorine Rubber (FKM): Withstanding extreme temperatures (-20~250ºC) and offering chemical corrosion resistance, this material suits the harshest environments.
Silastic (VMQ): Exhibits superior high-temperature endurance (-70~300ºC), high transparency, and excellent electrical performance for specialized needs.
Chlorinated Sulfated Polyethylene Rubber (CSM): Offers resistance to strong acids and alkalis, including concentrated sulfuric and nitric acids, with exceptional permeability resistance.
Conductive Rubber: Incorporates conductive fibers or metal mesh to effectively prevent static accumulation, ensuring safety and functionality.
Fire Retardant Rubber: Enhanced with flame retardants, like aluminum hydroxide, this material meets UL 94 flame retardant certification, ensuring safety and compliance.
2. Structural Composition of the Rubber Pipe Revealed
The Glue Layer: Engages directly with the conveyed medium, boasting wear and corrosion resistance—ideal for oil, acid, and alkali environments.
| casing pyl |
Enhance the strength of the tube body, including cotton thread, steel wire, synthetic fiber, etc., to determine the pressure bearing capacity (e. g., the steel wire woven layer can withstand 80~600MPa pressure). |
| External glue layer |
Protect the internal structure from the external environment (such as ultraviolet light, mechanical friction). |
3. Discover the Structural Variety of Rubber Pipes: Sandwich, Braided, Winding, and Full Hoses
4. Unveiling the Working Principle of Rubber Pipes
| Pressure transmission and energy buffer |
The hydraulic hose transfers the force through the fluid pressure, and uses the elastic shape of the rubber to absorb the pressure pulsation, and reduce the vibration of the system. For example, the hydraulic pipe of construction machinery bears high pressure (up to 60MPa or above) through a multi-layer steel wire reinforced layer. |
| Shock absorption and displacement compensation |
Rubber soft connection (e. g., flexible rubber joint) absorbs pipe displacement through the elastic deformation of the curtain layer and wire ring to reduce operating noise, which is suitable for pump valve connection and frequent vibration line. |
| Media isolation and leakage prevention |
The compactness of the inner adhesive layer combines with the protection of the outer adhesive layer to prevent the leakage of water, gas or chemicals. For example, the mobility of the coolant between the car radiator and the engine. |
5. Explore the Rich Application Areas:
| industrial circle |
Welding gas delivery, hydraulic system, mine ventilation. |
| automotive filed |
Coolant circulation, fuel transmission, air-conditioning system. |
| Medical field |
Infusion tube, surgical instrument catheter. |
| The field of agriculture |
Irrigation system, aquaculture equipment. |
| New energy field |
Automobile battery and wind turbine cooling system, etc. |
6. Standardization and Security Assurance:
| high-voltage insulation test |
Burst pressure is 3 times the working pressure (such as hydraulic hose). |
| degradation testing |
Simulated high temperature / UV environment assessment life (theoretical value of more than 15 years). |
| Environmental requirements |
Biological based rubber and low VOC (volatile organic compounds) formula meet the sustainable development needs. |
Harness the power of cutting-edge production equipment and extensive technical expertise to customize an array of rubber and plastic products in diverse specifications and materials.
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