Good Quality Urethane Tension Screen Media - Polyurethane Tensioned Screen Panel – Fangyuan
Good Quality Urethane Tension Screen Media - Polyurethane Tensioned Screen Panel – Fangyuan Detail:
Advantage
Application
The polyurethane tensioned screen panels are widely used in metallurgy, mining, coal, building materials, water conservancy, road building and other industries.
Advantage
Polyurethane Tension Screen Panels have long service life and large bearing capacity. Because polyurethane screen itself has very high elastic modulus, high strength, impact absorption and high wear resistance, it has high tensile strength. Its bearing capacity is more than 2.5 times that of rubber screen panels, so its service life is 8-10 times higher than that of metal screen mesh. The screen surface has self-cleaning performance, no hole plugging and high screening efficiency. Due to its strong water permeability and large cone angle of screen hole, polyurethane can effectively prevent the adhesion of wet fine particles, so it is suitable for the screening and classification of wet fine particles.
Product detail pictures:
Related Product Guide:
Innovation, excellent and reliability are the core values of our firm. These principles today more than ever form the basis of our success as an internationally active mid-size corporation for Good Quality Urethane Tension Screen Media - Polyurethane Tensioned Screen Panel – Fangyuan , The product will supply to all over the world, such as: Colombia, Cape Town, Swiss, We adopt advanced production equipment and technology, and perfect testing equipment and methods to ensure our product quality. With our high-level talents, scientific management, excellent teams, and attentive service, our products are favored by domestic and foreign customers. With your support, we will build a better tomorrow!
By Klemen Hrovat from Detroit - 2017.11.01 17:04
Products and services are very good, our leader is very satisfied with this procurement, it is better than we expected,
By Doris from Lesotho - 2017.08.18 18:38