Turn Nonweldable Ni‐Superalloys Printable and Microstructurally Controllable

材料科学 高温合金 航空航天 减色 制作 涡轮叶片 结构材料 纳米技术 铅(地质) 3D打印 涡轮机 体积分数 机械工程 发电 微观结构 工艺工程 表征(材料科学) 机械加工 燃气轮机 冶金 熔模铸造 复合材料 陶瓷
作者
Zhaowei Wang,M. H. Gu,Gao Shubo,Qiang Li,Kai Chen
出处
期刊:Advanced Materials [Wiley]
卷期号:38 (29): e17003-e17003 被引量:1
标识
DOI:10.1002/adma.202517003
摘要

Ni-based superalloys are critical materials in aerospace and power generation industries due to their exceptional high-temperature performance, achieved through carefully designed chemical compositions and meticulously controlled microstructures. Traditionally, these components are manufactured through subtractive processes that are costly and time-intensive, yet even these high-value components are prone to damage during prolonged service in harsh environments, necessitating innovative methods for manufacturing, remanufacturing, and repair. Recent advancements in 3D-printing technologies have demonstrated significant potential in addressing these needs, particularly for nonweldable Ni-based superalloys, but formidable challenges remain. Key issues include preventing crack formation, controlling crystal grain structure, and optimizing precipitate volume fraction and morphology to enhance mechanical properties. Here, an overview of the recent studies that have elucidated fundamental mechanisms underlying these challenges, such as elemental microsegregation, melt pool morphology, and the spatiotemporal distributions of microscopic defects and stresses, is presented. Based on these insights, strategies involving the optimization of printing parameters and the implementation of heat treatments are developed to improve the printability and microstructural controllability. By examining the fabrication of a turbine blade as an example, this review highlights the progress made, the persistent challenges, and future opportunities for the 3D printing of high-performance Ni-based superalloy components.
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