Hidden Roles of Time and Temperature in Cyclic Behavior of Stainless Nuclear Piping

Volume 1A: Codes and Standards Pub Date : 2018-07-15 DOI:10.1115/PVP2018-84936

J. Solin, T. Seppänen, W. Mayinger, H. E. Karabaki

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Abstract

Unexpected findings on time and temperature dependent behavior have been recorded during our research on fatigue performance of niobium stabilized stainless steel. Cyclic straining at 325°C and low strain rates resulted in higher stress responses than in higher rate tests. This effect is particular strong in PWR water environment. Subsurface bulk effect in environment is in contrast to the assumption on similar responses in air and environment, which is the foundation of the ‘companion specimen’ method where the strain in environment is measured from a parallel specimen similarly tested in air. Our data shows that environmental effects caused by PWR water cannot be isolated as a separate issue. Environment, temperature and strain rate are factors, which interactively affect the cyclic response and fatigue performance of stainless steel in relevant temperatures and loading conditions. The current ASME Code Section III design curve is based on different translation of the laboratory data than that made by Langer et al. The resulting effect is not as radical as caused by replacement of the original test data to a new highly scattered data base. But also the procedural changes have detectable effects and open a door for a provocative question: “is the design curve still compatible with the code?”

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时间和温度在不锈钢核管循环行为中的隐藏作用

在对铌稳定不锈钢疲劳性能的研究中，获得了时间和温度依赖性的意外发现。在325°C和低应变率下的循环应变比在高应变率试验中产生更高的应力响应。这种影响在压水堆水环境中尤为明显。环境中的地下体积效应与空气和环境中相似响应的假设相反，这是“伴随试样”方法的基础，该方法通过在空气中进行类似测试的平行试样来测量环境中的应变。我们的数据表明，压水堆水造成的环境影响不能作为一个单独的问题孤立起来。环境、温度和应变率是影响不锈钢在相应温度和加载条件下的循环响应和疲劳性能的因素。目前的ASME规范第III节设计曲线是基于与Langer等人所做的不同的实验室数据翻译。由此产生的影响不像将原始测试数据替换为新的高度分散的数据库那样彻底。但程序上的改变也会产生可察觉的影响，并为一个具有挑衅性的问题打开了一扇门:“设计曲线是否仍然与代码兼容?”

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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