Liquid cold plate coolant hose
In new energy storage, power batteries, data centers and other fields, the liquid cooling system is the core to ensure stable operation of equipment. As a key component for fluid transmission in the system, the liquid cold plate coolant transfer hose directly affects heat dissipation efficiency and equipment safety. This liquid cold plate coolant transfer hose is specially designed for various cooling medium transmission needs, balancing medium resistance, high temperature resistance, flame retardant safety and structural stability, adapting to harsh working conditions in multiple scenarios. It is also available in 3/4 inch specification and can withstand 1MPa working pressure, providing efficient and reliable transmission guarantee for liquid cooling systems.
The product adopts a three-layer composite structure, and the materials and processes are strictly selected to ensure long-term stable operation. The inner tube is made of peroxide-cured EPDM (Ethylene Propylene Diene Monomer) rubber, which has excellent chemical stability, aging resistance and hydrolysis resistance. It is not easy to swell, harden or crack when in long-term contact with air, water, water-glycol, oil-water emulsion, antifreeze, phosphate ester hydraulic oil and other media. The smooth inner wall design effectively reduces fluid resistance, ensures smooth circulation of coolant and reduces energy loss.
The reinforcement layer adopts a composite reinforcement design of multi-layer high-strength fiber braiding and helical steel wire. Double reinforcement improves the comprehensive performance of the product: the fiber braided layer enhances the flexibility and tensile resistance of the hose, facilitating bending and installation in the narrow space of equipment; the built-in helical steel wire effectively improves the compressive stiffness of the pipe body, resists negative pressure collapse, avoids pipe deformation caused by fluid fluctuation or installation bending, balances flexibility and support, and can stably withstand 1MPa working pressure. The outer cover is corrugated black synthetic rubber, which not only has excellent wear resistance, weather resistance and aging resistance, but also meets UL94 V0 flame retardant standard, which can effectively prevent fire hazards and adapt to closed high-temperature environments. The corrugated structure also increases the heat dissipation space of the pipe body, further ensuring operational safety.
The core parameters of the product are suitable for multi-scenario needs, with a specification of 3/4 inch, a working pressure of up to 1MPa, and a working temperature range of -40℃~+93℃ (-40°F~+200°F), which can adapt to extreme environments such as severe cold and high temperature. The standard color is black, which can well adapt to the appearance and use environment of various equipment.
Combined with product performance and parameters, its application working conditions cover multiple fields: in new energy storage cabins, it is suitable for the pipeline of energy storage battery liquid cold plates, with 3/4 inch specification and 1MPa pressure-bearing capacity, transmitting water-glycol or antifreeze. In the closed, high-temperature and multi-equipment intensive working conditions, it ensures stable heat dissipation of the energy storage system by virtue of flame retardancy and medium resistance; in the field of power batteries, it is used for the connection of battery liquid cold plates in new energy vehicles and energy storage power stations, withstanding vibration and temperature fluctuation during vehicle operation, and avoiding coolant leakage; in data centers, it is suitable for server liquid cooling heat dissipation pipelines, transmitting cooling media. In the closed and long-term continuous operation working conditions of the computer room, it relies on wear resistance, flame retardancy and stable pressure-bearing capacity to reduce maintenance costs; it can also be applied to industrial equipment cooling cycles, heat exchange systems, precision equipment temperature control pipelines and other scenarios, meeting the transmission needs of different media and environments, and ensuring stable and safe fluid transmission throughout the process.
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