As an excellent choice for the protection of walls and linings in light steel structure buildings, the Fangxing PSP plastic steel corrosion-resistant board – 940T wall and lining boards, with precise specification design, outstanding corrosion resistance, and strict standard adaptability, provide a stable and long-lasting protection solution for the wall and lining systems of various light steel structure buildings. It not only meets the basic protection needs but also effectively reduces the cost of later maintenance, suitable for a variety of scenarios such as industrial plants, storage facilities, and public light steel structure buildings.? The product continues the core advantages of PSP plastic steel corrosion-resistant material, created through mature composite technology, ensuring light weight while enhancing weather resistance and protection performance. It optimizes installation adaptability for the use characteristics of light steel structure walls and linings, ensuring precise fit with the building structure, enhancing the overall safety and durability of the building. The core specifications are 940*900mm, which accurately match the conventional size requirements of light steel structure building walls and linings. The reasonable ratio of width to length can reduce the number of splices during installation, lower the risk of gaps caused by splicing, improve construction efficiency, and flexibly adapt to light steel structure walls of different spans and heights, while meeting the size requirements of space filling and protection for lining boards, ensuring compatibility with the building structure; material characteristics: with PSP plastic steel corrosion-resistant material as the core, it has both light weight and high strength characteristics, its weight is much lower than traditional metal sheets and stone materials, which can greatly reduce the load-bearing pressure of light steel structures, reduce the load on the main building structure, and ensure the structural stability of walls and lining boards, avoiding structural deformation problems caused by excessive material weight.
