The Effect of Work Hardening on the Structure and Hardness of Hadfield Steel

Archives of Foundry Engineering Pub Date : 2024-02-14 DOI:10.24425/afe.2024.149246

D. Bańkowski, P. Młynarczyk, W. P. Depczyński, K. Bolanowski

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Abstract

The article aims to characterize Hadfield steel by analyzing its chemical composition, mechanical properties, and microstructure. The study focused on the twinning-induced work hardening of the alloy, which led to an increase in its hardness. The experimental data show that the material hardness at the surface improved considerably after solution heat treatment and work hardening, reaching more than 750 HV. By contrast, the hardness of the material core in the supersaturated condition was about 225 HV. The chemical and phase compositions of the material at the surface were compared with those of the core. The microstructural analysis of the steel revealed characteristic decarburization of the surface layer after solution heat treatment. The article also describes the effects of heat treatment on the properties and microstructure of Hadfield steel. The volumetric (qualitative) analysis of the computed tomography (CT) data of Hadfield steel subjected to heavy dynamic loading helped detect internal flaws, assess the material quality, and potentially prevent the structural failure or damage of the element tested.

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加工硬化对哈德菲尔德钢结构和硬度的影响

文章旨在通过分析哈德菲尔德钢的化学成分、机械性能和微观结构来描述其特性。研究的重点是该合金的孪晶诱导加工硬化，这导致了其硬度的提高。实验数据显示，经过固溶热处理和加工硬化后，材料表面硬度显著提高，达到 750 HV 以上。相比之下，材料核心在过饱和状态下的硬度约为 225 HV。表面材料的化学成分和相组成与核心材料的化学成分和相组成进行了比较。钢的微观结构分析表明，固溶热处理后表层具有脱碳特征。文章还介绍了热处理对哈德菲尔德钢性能和微观结构的影响。对承受重动态载荷的哈德菲尔德钢的计算机断层扫描（CT）数据进行的体积（定性）分析有助于检测内部缺陷、评估材料质量，并有可能防止受测元件的结构失效或损坏。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Archives of Foundry Engineering

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