Experimental analysis and numerical simulation of Laser welding of thin austenitic stainless-steel sheets using two models: Bilinear isotropic strain hardening model and Johnson–Cook model

IF 3.8 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of Advanced Joining Processes Pub Date : 2024-01-28 DOI:10.1016/j.jajp.2024.100198

Hichem Aberbache , Alexandre Mathieu , Rodolphe Bolot , Laurent Bleurvacq , Axel Corolleur , Fabrice Laurent

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Abstract

The objective of this study concerns simulation of Laser welding process, in a context of thin austenitic steel structures assembly.

Experiments and numerical simulations have been performed in order to predict, in a robust way, distortions induced by the Laser welding. A comparison between experiments and simulations is performed, considering thermal and mechanical approaches.

The experimental part of this work was based on instrumented tests. The in-situ measurements were carried out on sheets of 1 mm thickness. Macrographic observations in transverse section of the weld seam were performed in order to identify an equivalent heat source for butt welding configuration with filler metal.

The identified heat source was then implemented into a thermo-mechanical model taking into account thermal, elastic and plastic strains. For this, two different behavior laws were tested for the computations, namely bilinear isotropic strain hardening model, and Johnson–Cook model (neglecting the strain rate effect).

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使用两种模型对奥氏体不锈钢薄板的激光焊接进行实验分析和数值模拟：双线性各向同性应变硬化模型和约翰逊-库克模型

本研究的目标是在奥氏体薄钢结构装配的背景下模拟激光焊接过程。为了以稳健的方式预测激光焊接引起的变形，我们进行了实验和数值模拟。这项工作的实验部分基于仪器测试。现场测量是在厚度为 1 毫米的板材上进行的。对焊缝的横向截面进行了宏观观察，以确定带填充金属的对接焊接结构的等效热源。为此，在计算中测试了两种不同的行为规律，即双线性各向同性应变硬化模型和约翰逊-库克模型（忽略应变速率效应）。

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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