The Dissolution Behaviors of Carbides During Solution Treatment for AMSC-DB Ni-Based Superalloys Fabricated by Laser-Directed Energy Deposition and Forging

IF 3.4 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Advanced Engineering Materials Pub Date : 2024-10-04 DOI:10.1002/adem.202400700
Hao Yu, Yanzhen Hu, Shaofeng Chen, Lingyu Wang, Wenwen Sun, Jingjing Liang, Jinguo Li, Wei Xu
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Abstract

To gain insights into the microstructure evolution of as-fabricated Ni-based superalloys during post-heat treatments, a comparative microstructure analysis is made based on the AMSC-DB alloy samples fabricated by laser-directed energy deposition (L-DED) and forging. In L-DED samples, the (Nb,Ta)C carbides experience a continuous dissolution process during the solution treatment. In contrast, the coarsening behaviors of carbide particles in forge alloys are observed to take place simultaneously with their dissolution. Characterization results show that the carbides in L-DED alloy present uniformly distributed particle sizes and nodular shapes with much irregular surface curvatures. Also, less-pronounced Nb segregation behaviors in carbide vicinity are found in L-DED alloys. Therefore, the difference in carbide dissolution kinetics in L-DED and forge alloys can be ascribed to the combined effects of phase morphologies and local chemical driving forces. Correspondingly, the segmented changes in grain boundary misorientations and recrystallization process in forge alloys are observed to be highly coupled with the carbide dissolution behaviors, compared to the continuous microstructural evolution in L-DED alloy. The different recrystallization behaviors can be quantitatively reflected by the Zener pinning effect. This work sheds light on the proper design of post-heat treatments for L-DED alloys compared to the traditionally manufactured counterparts.

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通过激光能量沉积和锻造制造的 AMSC-DB 镍基超合金在溶液处理过程中的碳化物溶解行为
为了深入了解镍基超合金在后热处理过程中的微观结构演变,我们对通过激光能量沉积(L-DED)和锻造制造的 AMSC-DB 合金样品进行了微观结构对比分析。在 L-DED 样品中,(Nb,Ta)C 碳化物在固溶处理过程中经历了连续的溶解过程。相反,在锻造合金中,碳化物颗粒的粗化行为与它们的溶解同时发生。表征结果表明,L-DED 合金中的碳化物呈现出均匀分布的粒度和结节形状,表面曲率很不规则。此外,L-DED 合金中碳化物附近的铌偏析行为也不明显。因此,L-DED 和锻造合金中碳化物溶解动力学的差异可归因于相形态和局部化学驱动力的综合影响。相应地,与 L-DED 合金中连续的微结构演变相比,锻造合金中晶界错向和再结晶过程的分段变化与碳化物溶解行为高度耦合。不同的再结晶行为可通过齐纳针销效应定量反映出来。与传统制造的同类合金相比,这项研究揭示了如何正确设计 L-DED 合金的后热处理。
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来源期刊
Advanced Engineering Materials
Advanced Engineering Materials 工程技术-材料科学:综合
CiteScore
5.70
自引率
5.60%
发文量
544
审稿时长
1.7 months
期刊介绍: Advanced Engineering Materials is the membership journal of three leading European Materials Societies - German Materials Society/DGM, - French Materials Society/SF2M, - Swiss Materials Federation/SVMT.
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