利用激光粉末床熔融技术制造的 AISI 440C 不锈钢工具钢的微观结构特征

Z Pan, Y Zhang, M Defer, X Xiao, D Juul Jensen, V K Nadimpalli
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引用次数: 0

摘要

通过多尺度实验方法,研究了在不对构建板进行预热的情况下,用激光粉末床熔融(L-PBF)制造的不锈钢 AISI 440C 的微观结构特征。结合热力学计算,对凝固和冷却过程进行了分析,旨在了解通过 L-PBF 加工的高碳工具钢的开裂行为。结果表明,坯料样品具有完全的奥氏体结构,具有亚微细晶胞结构,晶胞壁上有纳米尺寸的碳化物。仅在晶胞壁的交叉处存在明显的偏析,而在高角度晶界处则不存在偏析。本文讨论了导致 AISI 440C 无裂纹的因素,为未来高碳工具钢的 L-PBF 制作提供了指导。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microstructural characterization of AISI 440C stainless tool steel fabricated by laser powder bed fusion
The microstructure of a stainless tool steel AISI 440C fabricated by laser powder bed fusion (L-PBF) without pre-heating of the build plate was characterized by multi-scale experimental methods. In combination with thermodynamic calculations, the solidification and cooling-down procedures were analyzed with the intention to understand the cracking behavior of high carbon tool steels processed by L-PBF. The results showed a fully austenitic structure in the as-built sample with sub-micro cellular structures and nano-sized carbides decorating the cell walls. Significant segregation exists merely at the intersection of cell walls while it is absent along high angle grain boundaries. Factors contributing to crack-free AISI 440C are discussed, providing guidelines for future L-PBF fabrication of high-carbon tool steels.
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