Silicone rubber is sensitive to impurities, and the production workshop must be kept clean to avoid dust, oil, and other contaminants from polluting the conductor or silicone rubber.
For silicone rubber cables, the relative displacement between the insulation layer and the conductor during long-term bending use is a key issue affecting their reliability and lifespan.
For the sheath layer, a co-extrusion process can be used to combine PTFE with cold-resistant rubber to form a composite structure that combines flexibility and wear resistance.
Flexible silicone heating wire cables, as energy carriers for critical subsystems such as wing de-icing, sensor insulation, and cabin temperature control, are themselves potential sources of electromagnetic radiation and are highly susceptible to strong e
Silicone rubber cables, with their unique material properties and precision manufacturing processes, have become a key carrier for ensuring highly reliable signal transmission. Their stability stems not only from excellent electrical performance but also
Under these harsh conditions, the "nerve center" of the vehicle's high and low voltage systems—the electric vehicle high voltage line—must withstand multiple tests, including severe temperature fluctuations, chemical corrosion, and electrical stress.
