Effect of B on Microstructure and Properties of Surfacing Layer of Austenitic Stainless Steel Flux Cored Wire

In order to study the effect of element B on the corrosion resistance of stainless steel-based flux cored wire surfacing alloy, a stainless steel surfacing layer was prepared on the surface of carbon steel plate by melt electrode gas shielded welding, and then the microstructure, electrochemical corrosion resistance, and wear resistance of the surfacing layer were analyzed. The results show that the surfacing layer of surfacing alloy presents M2B and Fe-3(C, B) phases based on austenite. Boride formed in deposited metal has good corrosion resistance. Therefore, adding the proper amount of B can significantly improve the corrosion resistance of the surfacing layer. When the boron content is 2%, the corrosion resistance is the best. The minimum self-corrosion current density is 1.75766 x 10(-11) mA center dot cm(2), and the maximum self-corrosion potential is -0.254438 V. Maximum impedance curve radius. At this time, the wear resistance of the surfacing layer is also the best.

Automated summary

By preparing a stainless steel surfacing layer on the surface of a carbon steel plate through melt electrode gas shielded welding, it was found that adding the proper amount of element B can significantly enhance the corrosion resistance and wear resistance of the surfacing layer.