In high-speed printing, coating, and hot-pressing equipment, standard rubber rollers often suffer from critical defects like deformation, degumming, and a drastic reduction in lifespan under high-temperature conditions. when the equipment temperature exceeds 180°c, most rubber materials can no longer maintain structural stability. however, high-temperature resistant rubber rollers utilize a specialized epdm and polyurethane composite coating process, ensuring a stable heat resistance of over 250°c

Traditional textile machinery often experiences issues like fabric misalignment and uneven pressure marks during high-speed operation due to roller deformation. in severe cases, this can even lead to entire batches of defective products. this is especially true when using synthetic fiber materials, where their high elasticity and heat sensitivity place extremely high demands on the surface uniformity and thermal stability of the rollers. modern synthetic fiber textile rollers utilize a **polyurethane coating over a precision steel core** construction, which..

In the precision manufacturing sector, even the slightest error can bring an entire production line to a grinding halt. traditional rubber rollers are prone to deformation or wear under high-temperature and high-load conditions, leading to blurry prints and jammed conveyors. however, silicone rubber rollers, thanks to their unique molecular structure, exhibit significantly superior stability compared to ordinary rubber. take, for example, the products supplied by dongguan ted roller manufacturing co., ltd