Numerical simulation of multi-track laser surface melting of 42CrMo steel

2010 International Conference On Computer Design and Applications Pub Date : 2010-06-25 DOI:10.1109/ICCDA.2010.5541083

Chaowen Li, Yong Wang, B. Han, T. Han, H. Zhan

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引用次数: 1

Abstract

Laser surface melting (LSM) provides benefits over the conventional surface processes, including minimum distortion, high level of hardness and narrow heat-affected zone. One known problem about laser surface melting a large area by multi-track is overlapping. This research is focused on the development of a numerical model to study the effect of overlapping ratio on the hardness and stress distributions in multi-track laser surface melting. The results of hardness calculation have confirmed the microstructure changes in the material and shown that laser surface melting can be regarded as a highly successful method to improve the hardness of the 42CrMo steel. The hardness of the first track of melted area shows a slightly decrease under the effect of tempering by the second laser track. After multi-track laser surface melting, the compressive residual stress exists in the melted zone, while the tensile stress in the heat-affected zone (HAZ) and the boundary of overlapped area may cause the initiation of cracks. With the overlapping ratio increasing, the maximum stress in the surface of the specimen decreases.

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42CrMo钢多道激光表面熔化的数值模拟

激光表面熔化(LSM)提供了优于传统表面工艺的优点，包括最小的变形，高水平的硬度和窄的热影响区。多道激光熔化大面积表面的一个已知问题是重叠。本文建立了多道激光表面熔化过程中重叠率对硬度和应力分布影响的数值模型。硬度计算结果证实了材料的显微组织变化，表明激光表面熔化是一种非常成功的提高42CrMo钢硬度的方法。熔化区第一磁道的硬度在第二磁道回火的作用下略有下降。多道激光表面熔化后，熔化区存在残余压应力，热影响区(HAZ)和重叠区边界的拉应力可能引起裂纹的萌生。随着重叠比的增大，试样表面的最大应力减小。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2010 International Conference On Computer Design and Applications

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