Teflon mesh belt It is a high-performance, high temperature resistant and corrosion resistant mesh belt product with the following advantages:
Excellent high temperature resistance: Teflon mesh belt has excellent high temperature resistance. It can operate stably for a long time in the high temperature environment from - 70 ℃ to 260 ℃, and will not fail due to temperature changes. It is suitable for applications under various high temperature conditions.
Excellent corrosion resistance: Teflon mesh belt has excellent chemical stability, can resist the erosion of acid and alkali and other corrosive substances, is not vulnerable to the erosion and corrosion of chemical substances, and has a long-term stable service life.
It has good non adhesion performance: the surface of Teflon mesh belt is smooth and non adhesion, which can effectively prevent adhesion and scaling, reduce downtime and cleaning costs in the production process, and improve production efficiency.
High strength and good wear resistance: Teflon mesh belt has good strength and wear resistance. After special treatment, it has higher durability and tensile elongation. It can withstand high strength work for a long time and reduce the frequency of replacement and maintenance.
Easy to clean and maintain: the surface of the Teflon mesh belt is smooth without adhesion and easy to clean. It can restore the original performance only by washing or wiping with clean water. It is simple and convenient without additional special cleaner.
Good thermal conductivity: Teflon mesh belt has good thermal conductivity and can conduct heat quickly, which helps to accelerate the heating and cooling process, improve production efficiency and save energy.
To sum up, Teflon mesh belt has many advantages such as high temperature resistance, corrosion resistance, non adhesion, high strength, wear resistance, easy cleaning and good thermal conductivity. It is widely used in food processing, electronic industry, chemical industry, glass manufacturing, printing and other fields, and has been widely recognized and applied.
