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A Review of Laser Peening Methods for Single Crystal Ni-Based Superalloys

高温合金 材料科学 激光喷丸 喷丸 冶金 喷丸 残余应力 涡轮叶片 腐蚀 表面粗糙度 单晶 压痕硬度 Crystal(编程语言) 合金 涡轮机 复合材料 微观结构 机械工程 计算机科学 工程类 程序设计语言 化学 结晶学
作者
Noah Holtham,Keivan Davami
出处
期刊:Metals [Multidisciplinary Digital Publishing Institute]
卷期号:12 (9): 1414-1414 被引量:6
标识
DOI:10.3390/met12091414
摘要

Single crystal Ni-based superalloys are often used to create gas turbine engine blades for their high strength under intense thermo-mechanical loading. Though they are remarkably capable under these conditions, a particular class of premature failure mechanisms known as surface-initiated damage mechanisms can lead to the early fracture of an otherwise healthy blade. This review paper discusses the current progress of post-processing techniques that can greatly mitigate the potency of surface-initiated damage mechanisms. In particular, laser peening (LP) is of significant interest due to the relatively low amount of cold work it induces, greater depth of compressive residual stresses than other cold working methods, ability to accommodate complex part geometries, and the minuscule effect it has on surface roughness. The residual stresses imparted by LP can greatly hinder crack growth and consequently allow for enhanced fatigue life. Given that turbine blades (constructed with single crystal Ni-based superalloys) are prone to fail by these mechanisms, LP could be a worthy choice for increasing their service lives. For this reason, initiative has been taken to better understand the mechanical and microstructural modifications imparted by LP on single crystal Ni-based superalloys and a summary of these investigations are presented in this review. Results from several works show that this class of alloy responds well to LP treatment with improvements such as ~30–50% increase in microhardness, 72% increase in low cycle fatigue life, and elevated resistance to hot corrosion. The primary objective of this review is to provide insight into current state-of-the-art LP techniques and summarize the findings of numerous works which have utilized LP for increasing the service lives of single crystal Ni-based superalloy components.
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