Study of Multilayer Welded Structure Made of AISI 316LSi Using WAAM

Tehnicki vjesnik - Technical Gazette Pub Date : 2024-04-15 DOI:10.17559/tv-20230825000897

Katarína Bártová, Jozef Bárta, J. P. Č. Inová

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Abstract

: The current era makes a pressure on more ecological and economical production, therefore technological innovations are required. Current trend is to use additive manufacturing, which saves production time and reduces the amount of waste. That also contributes to better utilization of raw materials. This paper deals with the analysis of multilayer weld made of AISI 316LSi using WAAM. The aim was to evaluate the integrity of this component via structural analysis. A pipe was welded up and the cross-section of the pipe was analysed using optical microscopy and scanning electron microscopy. The microstructure of the weld metal revealed a dendritic morphology. The dendrites were formed by austenite and the interdendritic space contained δ -ferrite. The boundaries of individual weld layers were sharp and without the presence of an annealed area. SEM-EDS analysis was used in order to obtain maps of the elements distribution in examined microstructure. Globular particles were observed in the microstructure. These particles were identified as oxides rich in silicon and manganese. The mechanical properties were evaluated using microhardness measurement in vertical line and three horizontal lines of the wall. It was found that the microhardness values in the top and middle part of the wall are higher on the inside of the component due to cooling conditions.

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使用 WAAM 研究 AISI 316LSi 制成的多层焊接结构

:当今时代要求生产更加环保、经济，因此需要技术创新。目前的趋势是使用快速成型技术，这样可以节省生产时间，减少浪费。这也有助于更好地利用原材料。本文使用 WAAM 对 AISI 316LSi 多层焊缝进行了分析。目的是通过结构分析评估该部件的完整性。焊接了一根管道，并使用光学显微镜和扫描电子显微镜分析了管道的横截面。焊接金属的微观结构显示出树枝状形态。树枝状组织由奥氏体形成，树枝状组织间隙含有 δ - 铁素体。单个焊接层的边界清晰，没有退火区。通过扫描电子显微镜-电子显微镜分析，获得了所检查的微观结构中的元素分布图。在微观结构中观察到球状颗粒。这些颗粒被确认为富含硅和锰的氧化物。使用垂直线和壁面三条水平线的显微硬度测量方法对机械性能进行了评估。结果发现，由于冷却条件的影响，壁顶部和中间部分的显微硬度值高于部件内部。

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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Tehnicki vjesnik - Technical Gazette

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