Do you know the characteristics of UHMW polyethylene panels?
The high performance of UHMW polyethylene panel is reflected in many aspects. High abrasion resistance, impact resistance, low friction coefficient, etc., all reflect that ultra high molecular weight polyethylene sheet products can be widely used.
One of the most striking properties of UHMWPE sheet is its extremely high abrasion resistance, a property that is invaluable in many engineering applications. Among all current plastics, its abrasion resistance is the best, even the regular abrasion resistance of many metal materials (such as carbon steel, stainless steel, bronze, etc.) is not as good as it. As the molecular weight of polyethylene increases, the material becomes more resistant to abrasion.
The impact strength of UHMW polyethylene panel is related to its molecular weight. When the molecular weight is less than 2 million, the impact strength increases with the increase of molecular weight. This is because the molecular weight hinders its photo-crystallization effect and makes large The amorphous area can absorb larger impact energy.
The UHMW polyethylene panels not only retains the high impact strength, low friction coefficient, and excellent self-lubricating properties of the UHMWPE board, but also can meet the different performance needs of customers. Such as flame retardant polymer polyethylene board, the lining board is difficult to ignite, and can be automatically extinguished within 3-10 seconds after being separated from the fire source. After testing by the fuel materials research laboratory, the product was identified as a green and environmentally friendly material, which has a high value for promotion and use.
Ultra-high molecular polyethylene sheet is used as a lining board, which uses its non-blocking performance and self-lubricity, and is often used as a metal lining material. Flame retardant polymer polyethylene board is widely used in China’s power, coal, steel, cement, coking and other industries to effectively prevent fire caused by coal spontaneous combustion and other factors.
