Creep Rupture Life and Design Factors for High Strength Ferritic Steels

机译：高强度铁素体钢的蠕变断裂寿命和设计因素

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Creep-strength enhanced ferritic steels such as Gr.91, Gr.92 and Gr.122 have been introduced for power plant applications relatively recently, and some have experienced creep failure in boiler tubes and thick wall components after several years operations. In order to use these steels safely in power plants, establishment of creep life prediction and design factors for base metal and weldment is essential. In this paper, creep rupture strengths and lives obtained by means of uniaxial creep testing and internal pressure component testing for the above-mentioned high-strength ferritic steels are presented comparatively. Design life and weld reduction factors are discussed based on the data and on ASME criteria for establishing allowable stresses in the time-dependent temperature region.

机译：蠕变强度增强的铁素体钢（例如Gr.91，Gr.92和Gr.122）已相对较新地引入电厂，并且经过数年的运营，其中一些在锅炉管和厚壁部件中经历了蠕变破坏。为了在发电厂中安全地使用这些钢，必须建立蠕变寿命预测以及基础金属和焊件的设计因素。本文比较地介绍了通过单轴蠕变试验和内压分量试验获得的上述高强度铁素体钢的蠕变断裂强度和寿命。根据数据和ASME标准讨论了设计寿命和减少焊接的因素，以便在随时间变化的温度范围内建立允许应力。

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来源
《Creep amp; Fracture in High Temperature Components: Design amp; Life Assessment Issues》|2005年|P.983-996|共14页
会议地点 London(GB)
作者
Fujimitsu Masuyama;
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作者单位

Graduate School of Engineering, Kyushu Institute of Technology 1-1, Sensui-cho, Tobata, Kitakyushu 804-8550, Japan;

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会议组织
原文格式 PDF
正文语种 eng
中图分类材料结构及物理性质;
关键词
creep rupture; design factors; creep-strength enhanced ferritic steels; allowable stresses; larson-miller constant; weld reduction factors;

机译：蠕变断裂;设计因子;蠕变强度增强铁素体钢;容许应力;拉森-米勒常数;焊接减少因子;
入库时间 2022-08-26 13:48:36

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1. Creep rupture life and design factors for high-strength ferritic steels [J] . Fujimitsu Masuyama International Journal of Pressure Vessels and Piping . 2007,第1a2期

机译：高强度铁素体钢的蠕变断裂寿命和设计因素
2. Effect of carbon content on creep rupture strength and microstructure in heat affected zone of heat resistant ferritic steel: alleviation of decrease in creep rupture strength in heat affected zone of heat resistant ferritic steel [J] . Hirata H., Ogawa K. Science and Technology of Welding & Joining . 2008,第6期

机译：碳含量对耐热铁素体钢热影响区蠕变断裂强度和显微组织的影响：减轻耐热铁素体钢热影响区蠕变断裂强度的降低
3. Prevention Of The Overestimation Of Long-term Creep Rupture Life By Multiregion Analysis In Strength Enhanced High Cr Ferritic Steels [J] . Hassan Ghassemi Armaki, Kouichi Maruyama, Mitsuru Yoshizawa, Materials Science and Engineering . 2008,第1a2期

机译：强度增强高铬铁素体钢中多区域分析防止高估长期蠕变断裂寿命
4. Creep Rupture Life and Design Factors for High Strength Ferritic Steels [C] . Fujimitsu Masuyama Creep amp; Fracture in High Temperature Components: Design amp; Life Assessment Issues . 2005

机译：高强度铁素体钢的蠕变断裂寿命和设计因素
5. Creep and Creep-Fatigue Deformation Studies in 22V and P91 Creep-Strength Enhanced Ferritic Steels [D] . Whitt, Harrison Collin. 2019

机译：22V和P91蠕变强度增强铁素体钢的蠕变和蠕变疲劳变形研究
6. Manufacture and Performance of Welds in Creep Strength Enhanced Ferritic Steels [O] . Jonathan Parker, John Siefert 2019

机译：蠕变强度增强铁素体钢焊缝的制造和性能
7. CREEP RUPTURE DUCTILITY OF CREEP STRENGTH ENHANCED FERRITIC STEELS [O] . Kazuhiro Kimura, Kota Sawada, Hideaki Kushima 2016

机译：蠕变强度增强铁素体钢的蠕变破坏延展性
8. Reduction factors for creep strength and fatigue life of modified 9 Cr-1 Mo steel weldments. Confirmation by axial or torsional tests of tubular specimens with longitudinal or circumferential welds [R] . Blass, J. J., Battiste, R. L., O'Connor, D. G. 1991

机译：改性9 Cr-1 mo钢焊件的蠕变强度和疲劳寿命的降低因子。通过纵向或圆周焊缝的管状试样的轴向或扭转试验确认

Creep Rupture Life and Design Factors for High Strength Ferritic Steels

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