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采用手动-自动MAG技术焊接S960QL高强度钢——热影响区的力学性能、残余应力及断裂机制研究

Welding of S960QL High-Strength Steel by the Manual-Automated MAG Technique-A Study of Mechanical Properties, Residual Stresses and Fracture Mechanisms in the Heat-Affected Zone.

作者信息

Ślęzak Tomasz

机构信息

Institute of Robots & Machine Design, Faculty of Mechanical Engineering, Military University of Technology, ul. gen. S. Kaliskiego 2, 00-908 Warsaw, Poland.

出版信息

Materials (Basel). 2024 Nov 26;17(23):5792. doi: 10.3390/ma17235792.

DOI:10.3390/ma17235792
PMID:39685227
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11642590/
Abstract

This paper presents results of investigations of a V-type welded joint made of S960QL high-strength steel made using a mixed technique: the root was welded manually and the face automatically. Although high-strength steels have been available on the market for many years, they are still the subject of research due to their increasingly widespread usage. For this reason, detailed investigations of welded joints of S960QL steel were carried out in terms of microstructure, microhardness, impact toughness and residual stresses, in order to expand knowledge in this area. The obtained results made it possible to determine their changes in heat-affected zone (HAZ) as a function of the distance from the fusion line. One of the most important findings is that during the tensile tests, the rupture occurred in the sub-zone of HAZ, which is characterized by increased strength and low ductility. This was due to the fact that an unfavorable residual stress distribution occurred in this area, causing the highest initial local strain of the material. Furthermore, different fracture mechanisms, both ductile and brittle, as well as mixed, were observed and described in detail for each sub-zone of the HAZ and in the weld.

摘要

本文介绍了对采用混合焊接技术制造的、由S960QL高强度钢制成的V型焊接接头的研究结果:根部采用手工焊接,面层采用自动焊接。尽管高强度钢已在市场上存在多年,但由于其使用越来越广泛,它们仍然是研究的对象。因此,对S960QL钢焊接接头的微观结构、显微硬度、冲击韧性和残余应力进行了详细研究,以扩展该领域的知识。所获得的结果使得能够确定其热影响区(HAZ)中随距熔合线距离变化的情况。最重要的发现之一是,在拉伸试验期间,断裂发生在热影响区的子区域,该区域的特点是强度增加和延展性低。这是由于该区域出现了不利的残余应力分布,导致材料的初始局部应变最高。此外,还观察并详细描述了热影响区每个子区域以及焊缝中的不同断裂机制,包括韧性、脆性和混合断裂机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7637/11642590/d52a9cf4e606/materials-17-05792-g011.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7637/11642590/d52a9cf4e606/materials-17-05792-g011.jpg
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