Hardness measurements as a technique for measuring accumulated fatigue damage

IF 3.5 Q1 ENGINEERING, MULTIDISCIPLINARY
F. Bjørheim, D. Pavlou, S. Siriwardane
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引用次数: 1

Abstract

PurposeBrinell, Vickers and low-force Vickers hardness measurements are herein adopted to investigate and quantify the fatigue damage evolution in specimens made of S355J2+AR ferritic pearlitic steel. Though nano and microhardness measurements have been well adopted, they require a strict preparation routine, whereas macroscopic hardness measurements are not as stringent.Design/methodology/approachThe feasibility of adopting macroscopic hardness measurements as a means of measuring fatigue damage is investigated through a combination of experimental tests and finite element analyses with both Brinell and Vickers hardness indenter.FindingsIt is found that the Brinell hardness measurements method seems more feasible, regarding finding a continuous and significant change during the fatigue life, in comparison to both Vickers and low-force Vickers. Thereafter, the question regarding the feasibility of the hardness measurements as a method of assessing accumulated fatigue damage in situ is discussed.Originality/valueMuch work has previously been performed towards correlation of the micro and nano hardness indentations, which generally has stringent preparation requirements before testing. Herein, the adoption of macroscopic hardness measurements as a means of assessing accumulated fatigue damage is considered both experimentally and theoretically.
硬度测量是测量累积疲劳损伤的一种技术
目的采用布氏硬度、维氏硬度和低力维氏硬度对S355J2+AR铁素体珠光体钢试样的疲劳损伤演变进行研究和量化。虽然纳米和显微硬度测量已被广泛采用,但它们需要严格的制备程序,而宏观硬度测量则不那么严格。设计/方法/途径采用宏观硬度测量作为测量疲劳损伤的一种手段,通过布氏和维氏硬度压头的实验测试和有限元分析相结合的方法进行了研究。与维氏硬度和低力维氏硬度相比,布氏硬度测量方法在发现疲劳寿命期间的连续和显著变化方面似乎更可行。然后,讨论了硬度测量作为原位累积疲劳损伤评估方法的可行性问题。原创性/价值以前已经做了很多关于微纳硬度压痕相关性的工作,通常在测试前有严格的准备要求。本文从实验和理论两方面考虑了采用宏观硬度测量作为评估累积疲劳损伤的手段。
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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来源期刊
International Journal of Structural Integrity
International Journal of Structural Integrity ENGINEERING, MULTIDISCIPLINARY-
CiteScore
5.40
自引率
14.80%
发文量
42
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