减轻环境断裂敏感性的残余应力冲击方法综述

M. McMahon
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引用次数: 2

摘要

与环境开裂和疲劳相关的故障威胁着所有主要行业,为了对抗这种退化,已经开发了许多具有不同程度功效和易用性的残余应力冲击(RSI)方法。一些最常用的RSI方法,如喷丸强化、激光冲击强化和低塑性抛光,以及新方法,如超声波纳米晶表面改性,在腐蚀、腐蚀疲劳和环境开裂缓解的背景下进行了综述。讨论了这些治疗方法的成功和局限性,并根据现有文献重点讨论了它们对这三种损伤模式的疗效。本文回顾了案例研究,展示了这些处理方法是如何被工业采用和发展的,并探讨了针对特定应用的研究工作,重点是未来的机会。研究表明,这些表面处理的效用在不同的合金系统之间可能会有所不同,并且必须权衡其好处与组件使用性能的风险。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Review of Residual Stress Impingement Methods to Mitigate Environmental Fracture Susceptibility
Environmental cracking- and fatigue-related failures threaten all major industries and, to combat such degradation, numerous residual stress impingement (RSI) methods have been developed with varying levels of efficacy and ease of use. Some of the most commonly used RSI methods, such as shot peening, laser shock peening, and low plasticity burnishing, as well as new methods, such as ultrasonic nanocrystal surface modification, are reviewed in the context of corrosion, corrosion fatigue, and environmental cracking mitigation. The successes and limitations of these treatments are discussed, with a focus on their efficacy against these three damage modes based on the available literature. Case studies are reviewed that demonstrate how these treatments have been adopted and advanced by industry, and application-specific research efforts are explored with a focus on future opportunities. Research is identified that illustrates how the utility of these surface treatments may vary between alloy systems, and where the benefits must be weighed against the risks to a component’s service performance.
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