AN INVESTIGATION INTO THE FEASIBILITY OF ENVIRONMENTAL FATIGUE DESIGN FOR APR 1400 PRIMARY COMPONENTS AND PIPING WITH A 60 YEAR DESIGN LIFE

机译：APR 1400主要组件的环境疲劳设计可行性研究以及60年的设计寿命

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This paper investigates the feasibility of environmental fatigue design for the APR1400 with the 60 year design life, which is based on sample evaluations of fatigue lives for the component and piping designed to the ASME Code Section III, Division 1. The materials sampled from the reactor coolant system (RCS) components are the low alloy steel for reactor pressure vessel outlet nozzles and the austenitic stainless steel for pressurizer surge line piping. Environmental fatigue evaluations of the component materials are performed employing the environment factor approach. Based on the evaluation results it is concluded the environmental fatigue design of the RCS components and piping for the APR1400 is not feasible as the Code requirement, and alternative approaches need be developed removing various conservatisms in the fatigue design methodology.

机译：本文研究了设计寿命为60年的APR1400进行环境疲劳设计的可行性，该设计基于对根据ASME规范III，第1节设计的组件和管道的疲劳寿命进行的样本评估。冷却剂系统（RCS）组件是用于反应堆压力容器出口喷嘴的低合金钢，以及用于增压器调压管线的奥氏体不锈钢。组件材料的环境疲劳评估是采用环境因素方法进行的。根据评估结果，可以得出结论，APR1400的RCS组件和管道的环境疲劳设计不可行，因为该规范要求，因此需要开发替代方法以消除疲劳设计方法中的各种保守性。

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来源
《ASME(American Society of Mechanical Engineers) Pressure Vessels and Piping Conference: Design and Analysis of Ressure Vessels and Piping: Implementation of ASME B31, Fatigue, ASME Section VIII, and Buckling Analyses; 20030720-20030724; Cleveland,OH; US》|2003年|P.69-76|共8页
会议地点 Cleveland OH(US)
作者
J.-S. Park; J.-M. Kim; G.-S. Kim; T.-S. Choi;
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作者单位

NSSS Mechanical System Design Dept Korea Power Engineering Company, Inc. (KOPEC) 150 Deokjin-Dong Yuseong-Gu, Daejeon 305-353, Korea;

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原文格式 PDF
正文语种 eng
中图分类压力容器;
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4. AN INVESTIGATION INTO THE FEASIBILITY OF ENVIRONMENTAL FATIGUE DESIGN FOR APR 1400 PRIMARY COMPONENTS AND PIPING WITH A 60 YEAR DESIGN LIFE [C] . J.-S. Park, J.-M. Kim, G.-S. Kim, ASME Pressure Vessels and Piping Conference . 2003

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AN INVESTIGATION INTO THE FEASIBILITY OF ENVIRONMENTAL FATIGUE DESIGN FOR APR 1400 PRIMARY COMPONENTS AND PIPING WITH A 60 YEAR DESIGN LIFE

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