核疲劳编纂设计规则:发展状况、边际和筛选标准

Volume 1A: Codes and Standards Pub Date : 2018-07-15 DOI:10.1115/PVP2018-84698

C. Faidy

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引用次数: 0

摘要

在过去的10年中，不同的实验室测试结果导致国际标准发展组织(SDO)从不同的方向审查其疲劳设计规则，特别是考虑环境影响对现有设计规则的后果。向规范开发者提出不同问题的关键文件是USNRC NUREG 6909报告:“低水堆冷却剂环境对反应堆材料疲劳寿命的影响”，该报告证实了一些环境对小样本S-N疲劳试验的影响。悬而未决的问题是:如何将这些结果转移到工厂部件的疲劳设计规则中?本文将回顾主要核守则中现有的成文规则;特别是美国ASME锅炉和压力容器规范第III节和法国AFCEN RCC-M规范。本文将首先介绍这些规范的历史背景，并结合现场经验和现有试验结果对这些规范的背景进行分析。最后，本文将总结今天的“疲劳路线图”来评估裕度和筛选标准，以确保可靠和安全的规范化设计疲劳寿命评估。

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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Nuclear Fatigue Codified Design Rules: Development Status, Margins and Screening Criteria

In the past 10 years, different laboratory test results lead the International Standard Development Organizations (SDO) to review their fatigue design rules in different directions, in particular to consider consequences of environmental effects on existing design rules. The key document that ask different questions to Code developers is the USNRC NUREG 6909 report: “Effect of LWR Coolant Environments on the Fatigue Life of Reactor Materials” that confirms some environmental effects on S-N fatigue tests on small specimen. The open question is: how to transfer these results to Fatigue Design Rules of plant components? This paper will review existing codified rules in major nuclear Codes; in particular USA ASME Boiler and Pressure Vessel Code Section III and French AFCEN RCC-M Code. The paper will make a first historical background of these Codes and analyze background of these rules by consideration of field experience and existing tests results. To conclude, the paper will summarize to-day “fatigue road maps” to evaluate margins and screening criteria to assure reliable and safe codified design fatigue life evaluation.

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Volume 1A: Codes and Standards

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