The Spherical Casting WC Powder and its Application in Laser Surface Alloying Treatment

Lei Wang; Yi Xiang Cai; Xin Liu; Huan Wen Xie; Xin Tong

doi:10.4028/www.scientific.net/AMR.785-786.910

Paper Titles

Synthesis of Hydrophilic Epoxy-Functionalized Films by UV-Initiated Copolymerization
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Research on Surface Roughness of Die Steel in Micro-Etching
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Preparation of Thick Ceramic Coating by Laser Multi-Layer Cladding II - Microstructural Characteristics
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Preparation of Thick Ceramic Coating by Laser Multi-Layer Cladding I - Crack Control
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The Spherical Casting WC Powder and its Application in Laser Surface Alloying Treatment
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Effects of Yttrium on Cyclic Oxidation Resistance of Co-10Cr-5Si Alloy
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Sn Whisker Growth in Cu(Top)-Sn(Bottom) Bilayer System upon Room Temperature Aging
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Fabrication and Microstructure of Zn-Sn Target Material Alloy
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The Effect of Grain Size and Cl^-Concentration on the Passive Behavior of Cu in Borate Buffer Solution
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 785-786The Spherical Casting WC Powder and its...

The Spherical Casting WC Powder and its Application in Laser Surface Alloying Treatment

Abstract:

The spherical casting WC powder is a kind of new potential wear-resistance ceramic material. In this paper, its chemical composition, surface morphology, microstructure, phase, microhardness and some powder characteristics were investigated, and then the powders were applied in laser surface alloying treatment on medium carbon steel. The results indicate that the spherical WC powder consists of (wt.%) 94.06 W, 4.03 C and 1.91 other elements including Fe, V, Cr and Nb. Most of powder particles have regular spherical shape and smooth surface, and the microstructure is acicular eutectic of WC and W₂C, which leads to high microhardness of 2812 HV. The fluidity of powders is 5.97 s/50g, and the apparent density of powders is 10.1 g/cm³. The laser alloyed layer is characterized by dendritic primary phase, ledeburite microstructure and some residual WC particles. The laser surface alloying treatment with adding material of spherical casting WC powder can enhanc the abrasive wear resistance of medium carbon steel by over 200%.