因科镍合金625
材料科学
焊接
微观结构
因科镍合金
火炬
冶金
弧(几何)
沉积(地质)
气体保护金属极电弧焊
等离子弧焊接
电弧焊
机械工程
工程类
合金
古生物学
生物
沉积物
作者
D.Z. Guo,Tianqi Wang,Jinbao Tang,Haoran Li,Liangyu Li
标识
DOI:10.1002/adem.202401801
摘要
Cold metal transfer‐based wire‐arc directed energy deposition offers high molding efficiency and the capability to produce large, complex structural components. However, the grain structure and mechanical performance of the deposited parts are significantly influenced by the thermal history during deposition. This study prepared Inconel 625 samples using two different torch modes (vertical and tilt). The effects of two torch modes and build heights on the molten pool temperature are investigated, and the solidification structure and mechanical performance of the parts at various locations are analyzed. Results show that the deposited samples primarily consisted of columnar dendrites growing epitaxially along the deposition direction, with Laves phase particles distributed in blocks and chains among the dendrites. Tilting the torch contributed to grain refinement and reduced Laves phase precipitates, resulting in samples with high strength. Additionally, the tensile performance of the deposited samples exhibits anisotropy.
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