Microstructure and Wear Behaviour of SS420 Micron Layers on Ti–6Al–4V Substrate Using Laser Cladding Process

被引:0
|
作者
N. Jeyaprakash
Che-Hua Yang
机构
[1] National Taipei University of Technology,Centre of Mass Customization Additive Manufacture
[2] National Taipei University of Technology,Institute of Manufacturing Technology
来源
Transactions of the Indian Institute of Metals | 2020年 / 73卷
关键词
Ti–6Al–4V; SS420; Laser cladding; Microstructure; Wear mechanism; Roughness;
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学科分类号
摘要
Ti–6Al–4V is commonly used material in automobile, aerospace, biomedical and marine due to its excellent properties. However, their uses are reduced because their its poor tribological performance. In the current study, stainless steel 420 alloy powder was cladded on Ti–6Al–4V base material using high-power Yb: YAG disc laser. Then, the cladded surfaces were evaluated to reveal their new phase formation, hardness changes and improved wear properties. Besides, the various wear mechanisms and their corresponding rough averages were studied. Results showed that the microhardness of laser cladded specimen is 613HV while base material shows 303HV. The wear rate of laser cladded specimen reduces remarkably compared to un-clad specimen. The identified major wear mechanisms are abrasive, adhesive and oxidation wear. The worn-out cladded surface shows lesser roughness than base material.
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页码:1527 / 1533
页数:6
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