316 不锈钢上激光合金化铁锰硅铬镍形状记忆合金涂层的应力场和温度场数值模拟

IF 2.1 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY JOM Pub Date : 2024-08-30 DOI:10.1007/s11837-024-06829-3
Yubin Sun, Haojie Niu, Chengxin Lin
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摘要

ANSYS 有限元分析软件的使用有助于研究单程和多程激光合金化后 FeMnSiCrNi 形状记忆合金涂层内的温度和应力分布。模拟结果表明,单程激光所形成的轨道熔合区呈半勺状,中心为圆形区域。在合金涂层恢复到环境温度后,基材的核心区域经历了横向残余应力的转变,从中心的压应力开始,逐渐向边缘转变为拉应力。在激光运动的方向上,涂层内的纵向残余应力也经历了从压应力到拉应力,再回到压应力的转变过程。在铁锰硅形状记忆合金的多道激光合金化过程中,该过程模拟了连续加热阶段,最高温度为 2467°C。
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Numerical Simulation of Stress and Temperature Fields in Laser-Alloyed FeMnSiCrNi Shape Memory Alloy Coatings on 316 Stainless Steel

The employment of ANSYS finite element analysis software facilitated the examination of temperature and stress distributions within FeMnSiCrNi shape memory alloy coatings subjected to single-pass and multi-pass laser alloying. The findings from the simulation demonstrated that the fusion zone in the track created by a single laser pass adopts a semi-spoon configuration with a circular area at its center. Following the alloyed coating's return to ambient temperature, the core region of the substrate experiences a transition in transverse residual stress, starting with compressive stress at the center and gradually shifting to tensile stress towards the edges. In the direction of laser movement, the longitudinal residual stress within the coating undergoes a pattern of changing from compressive to tensile, and then back to compressive stress. During the multi-pass laser alloying process for FeMnSi shape memory alloys, the procedure mimics sequential heating phases, peaking at a temperature of 2467°C.

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来源期刊
JOM
JOM 工程技术-材料科学:综合
CiteScore
4.50
自引率
3.80%
发文量
540
审稿时长
2.8 months
期刊介绍: JOM is a technical journal devoted to exploring the many aspects of materials science and engineering. JOM reports scholarly work that explores the state-of-the-art processing, fabrication, design, and application of metals, ceramics, plastics, composites, and other materials. In pursuing this goal, JOM strives to balance the interests of the laboratory and the marketplace by reporting academic, industrial, and government-sponsored work from around the world.
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