Our wear-resistant plate adopts a wear-resistant plate wire hardening process. Adopting high hardness flux-cored wire and wed-dh-20 professional open-arc welding equipment for surfacing welding, so that the surface of the wear-resistant parts is formed high chromium compound carbide which is more wear-resistant than the base material The High Chromium Carbide and the base metal can be well combined into a whole. This technique saves more than 50% of the purchase cost and takes more than 2 times as long as the original product.
Waldun wear-resistant plate is the use of an automatic metal arc surfacing method, in Q235(also according to customer needs to choose substrate) on the whole plate to form a high chromium alloy wear-resistant layer. In this process, the metal compounds distribute on the solid solution substrate in the form of diffusion, and are actually used as strengthening phase, so the strength, hardness and wear resistance of the whole alloy are greatly improved.
Wear-resistant plates with high wear resistance, impact resistance, deformable and weldable properties, like steel can be directly processed, such as bending deformation, cutting and drilling, etc. Processing into engineering components to meet the wear and tear of industrial and mining put into use. Compared with other wear-resistant plates, Waldun hardfacing wear-resistant plate, composite wear-resistant plate, bimetal wear-resistant steel plate, high-chromium Alloy wear-resistant plate has its remarkable characteristics that can not be replaced.
The hardfacing layer of Waldun wear-resistant plate is uniform in material and regular in appearance. The carbides in the metallographic structure of the wear-resistant layer are fibrous and perpendicular to the surface. The surface hardness can reach above HRC63. It is a hard alloy with high chromium carbide content So that wear-resistant composite board for severe wear and tear of the environment.