The role of scanning velocity on laser cladding of NiTi alloy onto stainless steel 316L substrate

Zarghami Kian; Khademzadeh Saeed; Parvin NaderAzarmehr Yashar

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The role of scanning velocity on laser cladding of NiTi alloy onto stainless steel 316L substrate

机译：扫描速度对NiTi合金激光熔覆到不锈钢316L基体上的作用

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摘要

In this research, Ni50.8Ti49.2 pre-alloyed powder was used to produce NiTi shape memory alloy coating onto stainless steel 316L substrate. Micro direct metal deposition (mu DMD) process was employed to produce coatings with the thickness of 200 mu m. To investigate the effect of scanning velocity and the capability of the process, three different coatings were fabricated with three scanning velocities. The effects of scanning velocity variations were investigated by scanning electron microscopy and X-ray diffraction. The results revealed that a good and precise coating can be fabricated when the scanning velocity and the laser power are 200 mm/min and 25 W, respectively, while with the scanning velocity of 120 mm/min, crack formation is inevitable, and with the scanning velocity of 150 mm/min, it would be difficult to achieve a coating with accurate thickness of 200 mu m.

机译：本研究采用Ni50.8Ti49.2预合金粉末在不锈钢316L基体上制备NiTi形状记忆合金涂层。采用微直接金属沉积（μ DMD）工艺生产厚度为200μ m的涂层。为了研究扫描速度的影响和工艺能力，以三种扫描速度制备了三种不同的涂层。通过扫描电子显微镜和X射线衍射研究了扫描速度变化的影响。结果表明，当扫描速度和激光功率分别为200 mm/min和25 W时，可以制备出良好而精确的涂层，而当扫描速度为120 mm/min时，裂纹的形成是不可避免的，而当扫描速度为150 mm/min时，很难达到200 μ m的精确厚度。

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来源
《The International Journal of Advanced Manufacturing Technology》 |2021年第8期|2029-2039|共11页
作者
Zarghami Kian; Khademzadeh Saeed; Parvin NaderAzarmehr Yashar;
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作者单位

Amirkabir Univ Technol, Mat & Met Engn Dept, Tehran, Iran;

Univ Padua, Ind Engn Dept, Padua, Italy;

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原文格式 PDF
正文语种英语
中图分类自动化装置与设备;
关键词
Shape memory alloys; Additive manufacturing; Micro direct metal deposition; Scanning electron microscopy;

机译：形状记忆合金;增材制造;微直接金属沉积;扫描电子显微镜;

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The role of scanning velocity on laser cladding of NiTi alloy onto stainless steel 316L substrate

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