Evaluation of Long-Term Creep-Fatigue Life of Stainless Steel Weldment Based on a Microstructure Degradation Model

Asayama T.; Hasebe S.

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Evaluation of Long-Term Creep-Fatigue Life of Stainless Steel Weldment Based on a Microstructure Degradation Model

机译：基于微观结构降解模型的不锈钢焊机长期蠕变寿命评价

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This paper describes a newly developed analytical method of evaluation of creep-fatigue strength of stainless weld metals. Based on the observation that creep-fatigue crack initiates adjacent to the interface of sigma-phase/delta-ferrite and matrix, a mechanistic model which allows the evaluation of micro stress/strain concentration adjacent to the interface was developed. Fatigue and creep damage were evaluated using the model which describes the microstructure after exposed to high temperatures for a long time. Thus it was made possible to predict analytically the long-term creep-fatigue life of stainless steel metals whose microstructure is degraded as a result of high temperature service.

机译：本文介绍了一种新开发的蠕变疲劳强度评价的分析方法。基于观察结果，沿Σ相/Δ-铁氧体和矩阵界面相邻的蠕变 - 疲劳裂纹引发，允许评估与界面相邻的微应力/应变浓度相邻的机械模型。使用该模型评估疲劳和蠕变损坏，该模型描述了长时间暴露于高温后的微观结构。因此，可以预测分析的不锈钢金属的长期蠕变疲劳寿命，其微观结构由于高温服务而降低。

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《材料》 |1997年第1期|共5页
作者
Asayama T.; Hasebe S.;
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原文格式 PDF
正文语种 jpn
中图分类工程材料学;
关键词
stainless steel weld metal; degradation of microstructure; creep-fatigue;

机译：不锈钢焊缝金属;微观结构的降解;蠕变 - 疲劳;

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1. Evaluation of Long-Term Creep-Fatigue Life of Stainless Steel Weldment Based on a Microstructure Degradation Model [J] . Asayama T., Hasebe S. 材料 . 1997,第1期

机译：基于微观结构降解模型的不锈钢焊机长期蠕变寿命评价
2. Weld metal creep-fatigue life prediction by modeling the microstructure degradation due to the exposure to high temperature and load [J] . Tai Asayama, Shinich Hasebe Nuclear Engineering and Design . 2000,第2期

机译：通过对暴露于高温和高负荷下的微观结构退化进行建模，预测焊接金属的蠕变疲劳寿命
3. Weld metal creep-fatigue life prediction by modeling the microstructure degradation due to the exposure to high temperature and load [J] . Tai Asayama, Shinich Hasebe Nuclear Engineering and Design . 2000,第2期

机译：通过对暴露于高温和高负荷下的微观结构退化进行建模，预测焊接金属的蠕变疲劳寿命
4. STUDY ON CREEP-FATIGUE LIFE PREDICTION METHODS BASED ON LONG-TERM CREEP- FATIGUE TESTS FOR AUSTENITIC STAINLESS STEEL [C] . Y. TAKAHASHI IUTAM Symposium on Creep in Structures . 2001

机译：基于长期蠕变疲劳试验对奥氏体不锈钢试验的蠕变 - 疲劳寿命预测方法研究
5. Friction Welding For Cladding Applications: Processing, Microstructure and Mechanical Properties of Inertia Friction Welds of Stainless Steel to Low Carbon Steel and Evaluation of Wrought and Welded Austenitic Stainless Steels for Cladding Applications in Acidchloride Service. [D] . Switzner, Nathan. 2017

机译：熔覆应用的摩擦焊接：不锈钢至低碳钢的惯性摩擦焊接的加工，显微组织和力学性能，以及在酸性氯化物中用于熔覆应用的锻造和焊接奥氏体不锈钢的评估。
6. Evaluation of the Pulmonary Toxicity of a Fume Generated from a Nickel- Copper-Based Electrode to be Used as a Substitute in Stainless Steel Welding [O] . James M Antonini, Melissa A Badding, Terence G Meighan, 2014

机译：由镍铜基电极替代不锈钢焊接产生的烟尘的肺毒性评估
7. Strength of Materials at Elevated Temperatures. Type IV Cracking and Life Evaluation of Weldments on 2.25Cr-1Mo Steel under Creep-Fatigue Loading Condition. [O] . Takashi OGATA, Masatsugu YAGUCHI 1999

机译：高温材料的强度。蠕变 - 疲劳负载条件下2.25Cr-1Mo钢焊型IV裂解和寿命评价。
8. Long-term aging of type 308 stainless steel welds: Effects on properties and microstructure [R] . Alexander, D. J. , Vitek, J. M. , David, S. A. 1994

机译：308型不锈钢焊缝的长期老化：对性能和微观结构的影响

Evaluation of Long-Term Creep-Fatigue Life of Stainless Steel Weldment Based on a Microstructure Degradation Model

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