Effects of surface roughness on mechanical properties of laser-cladding additively manufactured 316L stainless steel sheets

IF 4 2区 工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY Journal of Constructional Steel Research Pub Date : 2024-11-11 DOI:10.1016/j.jcsr.2024.109136
Lan Kang , Jufei Jin , Xinpei Liu , Haizhou Chen
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Abstract

Laser-cladding (LC) additive manufacturing technology can be applied to repair local damage in steel structures. However, the process creates a distinctive surface morphology due to the overlap of weld beads on the repair surface, resulting in noticeable pit defects between adjacent weld beads. Under specific load conditions, these defects, or saying surface roughness, may cause significant stress concentration in localised areas of LC additively manufactured sheets. This stress concentration could adversely impact the mechanical properties of the LC additively manufactured sheets, including their stiffness, strength and ductility. This paper addresses this issue by testing smooth and rough surface tensile coupon specimens with different thicknesses produced by laser-cladding additive manufacturing technology. The rough surface specimens were geometrically characterised in detail by using 3D scanning technique, and the thickness distribution characteristics of the rough surface specimens were analysed based on the 3D scanning results. Tensile tests were then conducted on both smooth and rough surface specimens of different thicknesses, revealing that surface roughness indeed adversely affects the mechanical parameters of the LC sheets. The degree of degradation was also found to be related to the thickness of the specimens. Accordingly, a correlation analysis was performed among the degree of degradation, surface roughness and specimen thickness. Empirical formulae were proposed to predict the degree of degradation in the mechanical properties of the LC sheets due to surface roughness based on the results of the correlation analysis.
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表面粗糙度对激光熔覆快速成型 316L 不锈钢板机械性能的影响
激光熔覆(LC)快速成型技术可用于修复钢结构的局部损伤。然而,由于修复表面的焊珠重叠,该工艺会产生独特的表面形态,导致相邻焊珠之间出现明显的凹坑缺陷。在特定的负载条件下,这些缺陷或表面粗糙度可能会在低熔点快速成型板材的局部区域造成严重的应力集中。这种应力集中会对低熔点快速成型板材的机械性能(包括刚度、强度和延展性)产生不利影响。本文通过测试激光熔覆快速成型技术生产的不同厚度的光滑和粗糙表面拉伸试样来解决这一问题。利用三维扫描技术对粗糙表面试样进行了详细的几何表征,并根据三维扫描结果分析了粗糙表面试样的厚度分布特征。然后对不同厚度的光滑和粗糙表面试样进行了拉伸试验,结果表明表面粗糙度确实会对 LC 板材的机械参数产生不利影响。此外,还发现退化程度与试样的厚度有关。因此,对降解程度、表面粗糙度和试样厚度进行了相关分析。根据相关分析的结果,提出了经验公式来预测因表面粗糙度造成的低密度聚碳酸酯板机械性能退化程度。
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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来源期刊
Journal of Constructional Steel Research
Journal of Constructional Steel Research 工程技术-工程:土木
CiteScore
7.90
自引率
19.50%
发文量
550
审稿时长
46 days
期刊介绍: The Journal of Constructional Steel Research provides an international forum for the presentation and discussion of the latest developments in structural steel research and their applications. It is aimed not only at researchers but also at those likely to be most affected by research results, i.e. designers and fabricators. Original papers of a high standard dealing with all aspects of steel research including theoretical and experimental research on elements, assemblages, connection and material properties are considered for publication.
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