Path Optimization of Laser Welding for Multi-Hole Tubesheet Group Seams

KANG Xuqiang; WANG Bingqi; CAO Chuchuan; HUANG Anguo

Volume 38 Issue 5

Oct. 2023

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Development and Application of Materials > 2023 > 38(5): 37-43.

KANG Xuqiang, WANG Bingqi, CAO Chuchuan, HUANG Anguo. Path Optimization of Laser Welding for Multi-Hole Tubesheet Group Seams[J]. Development and Application of Materials, 2023, 38(5): 37-43.

Citation:

KANG Xuqiang, WANG Bingqi, CAO Chuchuan, HUANG Anguo. Path Optimization of Laser Welding for Multi-Hole Tubesheet Group Seams[J]. Development and Application of Materials, 2023, 38(5): 37-43.

Citation:

KANG Xuqiang, WANG Bingqi, CAO Chuchuan, HUANG Anguo. Path Optimization of Laser Welding for Multi-Hole Tubesheet Group Seams[J]. Development and Application of Materials, 2023, 38(5): 37-43.

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Path Optimization of Laser Welding for Multi-Hole Tubesheet Group Seams

School of Materials Science and Engineering, Huazhong University of Science and Technology, Wuhan 430074, China

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Received Date: June 16, 2023
Available Online: November 06, 2023

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Abstract

Abstract

In order to study the deformation law and control technology of the large-scale tubesheet group seam laser welding, we establish a 12 mm thick Q235 porous tubesheet group seam simulation piece considering the high temperature and mechanical performance parameters of the material, and design 5 kinds of symmetric and asymmetric welding paths. The welding process simulation software InteWeld is adopted to simulate and study the influences of different welding paths on the welding deformation. The results show that when the path is welding from top to bottom sequentially, the average and axial deformations are the smallest.
- tube-sheet joints,
- laser welding,
- numerical simulation,
- deformation law,
- deformation control

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