Improving tension fatigue performance of gray cast iron by LSPwC-induced gradient structure and carbon diffusion

Shaopeng Meng, Yanqing Yu, Lingfeng Wang, Liucheng Zhou, Zichuan Yu, Xinlie Pan, Rongping Wang, Cenchao Xie
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Abstract

HT250 Gray cast iron (GCI) commonly utilized in diesel engine cylinders, is susceptible to fatigue failure under alternating stress conditions. To address this issue, the investigation involved the application of laser shock peening without coating (LSPwC) on HT250 GCI to assess its impact on the high cycle tension fatigue properties of the material. Both experimental and simulation methodologies were employed to analyze the effects of LSPwC on residual stress, microhardness, and microstructure in HT250 GCI. The LSPwC resulted in a substantial 29% enhancement in the high cycle tension fatigue limit of the HT250 GCI, which is attributed to a synergistic combination of factors induced by LSPwC, including high-amplitude compressive residual stresses, elevated microhardness, grain refinement, and carbon diffusion. This study contributes valuable insights into the reinforcement of complex cast components.
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通过 LSPwC 诱导的梯度结构和碳扩散改善灰铸铁的拉伸疲劳性能
常用于柴油发动机气缸的 HT250 灰口铸铁 (GCI) 在交变应力条件下容易发生疲劳失效。为解决这一问题,研究人员对 HT250 GCI 进行了无涂层激光冲击强化(LSPwC),以评估其对材料高循环拉伸疲劳特性的影响。采用实验和模拟方法分析了 LSPwC 对 HT250 GCI 中残余应力、显微硬度和显微结构的影响。LSPwC 使 HT250 GCI 的高循环拉伸疲劳极限大幅提高了 29%,这归因于 LSPwC 诱导的各种因素的协同组合,包括高振幅压缩残余应力、显微硬度升高、晶粒细化和碳扩散。这项研究为复杂铸件的强化提供了宝贵的见解。
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