材料科学
腐蚀
微观结构
表面粗糙度
合金
铝
表面光洁度
冶金
腐蚀疲劳
复合材料
制作
疲劳极限
医学
病理
替代医学
作者
Clara Linder,Flavien Vucko,Taoran Ma,Sebastian Proper,Erik Dartfeldt
出处
期刊:Materials
[Multidisciplinary Digital Publishing Institute]
日期:2023-08-31
卷期号:16 (17): 5964-5964
被引量:8
摘要
Additive manufacturing (AM) allows for optimized part design, reducing weight compared to conventional manufacturing. However, the microstructure, surface state, distribution, and size of internal defects (e.g., porosities) are very closely related to the AM fabrication process and post-treatment operations. All these parameters can have a strong impact on the corrosion and fatigue performance of the final component. Thus, the fatigue-corrosion behavior of the 3D-printed (L-PBF) AlSi10Mg aluminum alloy has been investigated. The influence of load sequence (sequential vs. combined) was explored using Wöhler diagrams. Surface roughness and defects in AM materials were examined, and surface treatment was applied to improve surface quality. The machined specimens showed the highest fatigue properties regardless of load sequence by improving both the roughness and removing the contour layer containing the highest density of defect. The impact of corrosion was more pronounced for as-printed specimens as slightly deeper pits were formed, which lowered the fatigue-corrosion life. As discussed, the corrosion, fatigue and fatigue-corrosion mechanisms were strongly related to the local microstructure and existing defects in the AM sample.
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