A Perspective of the Small Punch Test Application to the Evaluation of Hydrogen Embrittlement in Steels: Effect of Punch Rate on Fracture Properties

Volume 1A: Codes and Standards Pub Date : 2018-07-15 DOI:10.1115/PVP2018-84066

B. Arroyo, J. Álvarez, F. Gutiérrez-Solana, J. Sainz, R. Lacalle

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Abstract

In this paper, different techniques to test notched Small Punch (SPT) samples for the estimation of the fracture properties in aggressive environments are studied, based on the comparison of the micromechanisms at different rates. Pre-embrittled samples subsequently tested in air at conventional rates (0.01 and 0.002 mm/s) are compared to embrittled ones tested in environment at the same rates (0.01 and 0.002 mm/s) and at a very slow rate (5E−5 mm/s); a set of samples tested in environment under static loads that produce very slow rates complete the experimental results. To close the study, numerical simulations based on obtaining a punch rate that produces an equivalent CTOD growing rate in the edge of the notch to the one at the crack tip of a C(T) specimen for a given solicitation rate is carried out. As a conclusion, is recommended to test SPT notched specimens in environment at very slow rates, of arround E−6 mm/s, when characterizing in Hydrogen Embrittlement (HE) scenarios, in order to allow the interaction material-environment to govern the process.

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小冲孔试验在钢氢脆评价中的应用展望:冲孔率对断裂性能的影响

本文在比较不同速率下的微观机制的基础上，研究了不同的缺口小冲孔(SPT)试样在侵略性环境下断裂性能评估的测试技术。随后在空气中以常规速率(0.01和0.002 mm/s)测试的预脆化样品与在环境中以相同速率(0.01和0.002 mm/s)和非常慢的速率(5E - 5 mm/s)测试的脆化样品进行比较;一组样品在静载荷环境下测试，产生非常慢的速率，完成了实验结果。为了结束研究，在获得一个冲孔率的基础上进行了数值模拟，该冲孔率在凹口边缘产生的CTOD增长速率与给定的激发速率下C(T)试件裂纹尖端的CTOD增长速率相当。综上所述，建议在氢脆(HE)场景中以非常慢的速率(约E - 6 mm/s)测试SPT缺口试样，以允许材料-环境相互作用来控制过程。

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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Volume 1A: Codes and Standards

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