INVESTIGATION OF THE LOW-CYCLE FATIGUE AND FATIGUE CRACK GROWTH BEHAVIORS OF P91 BASE METAL AND WELD JOINTS

被引:0
|
作者
H.C.Yang
Y.Tu
M.M.Yu
J.Zhao
机构
[1] Dongfang Boiler (Group) Ltd
[2] Zigong 643001
[3] China
[4] Department of Materials Engineering
[5] Dalian 116023
[6] Dalian University of Technology
来源
ActaMetallurgicaSinica(EnglishLetters) | 2004年 / 04期
关键词
P91; pipe; low-cycle fatigue; fatigue crack growth;
D O I
暂无
中图分类号
TG407 [焊接接头的力学性能及其强度计算];
学科分类号
080201 ; 080503 ;
摘要
Low cycle fatigue tests and crack growth propagations tests on P91 pipe base metal and its weld joints were conducted at three different temperatures: room temperature, 550℃ and 575℃. The strain-life was analyzed, and the changes in fatigue life behavior and fatigue growth rates with increasing temperature were discussed. The different properties of the base metal and its weld joint have been analyzed.
引用
收藏
页码:597 / 600
页数:4
相关论文
共 50 条
  • [21] Microstructural effects on the short crack behaviour of a stainless steel weld metal during low-cycle fatigue
    Zhao, Y.-X.
    Gao, Q.
    Wang, J.-N.
    Fatigue and Fracture of Engineering Materials and Structures, 1999, 22 (06): : 469 - 480
  • [22] Microstructural effects on the short crack behaviour of a stainless steel weld metal during low-cycle fatigue
    Zhao, YX
    Gao, Q
    Wang, JN
    FATIGUE & FRACTURE OF ENGINEERING MATERIALS & STRUCTURES, 1999, 22 (06) : 469 - 480
  • [23] RELATIONSHIPS BETWEEN LOW-CYCLE FATIGUE AND FATIGUE CRACK GROWTH-RATE PROPERTIES
    KAISAND, LR
    MOWBRAY, DF
    JOURNAL OF TESTING AND EVALUATION, 1979, 7 (05) : 270 - 280
  • [24] Characterization of Strain-Controlled Low-Cycle fatigue and fracture behavior of P91 steel at elevated temperatures
    Nguyen, Thanh Tuan
    Yoon, Kee Bong
    Park, Jaeyeong
    Baek, Un Bong
    ENGINEERING FAILURE ANALYSIS, 2022, 133
  • [25] Comparative Study on Fatigue Crack Growth Performance of Nuclear Stainless Steel Weld Joints and Base Metal
    Chang, Haijun
    Hedongli Gongcheng/Nuclear Power Engineering, 2021, 42 (03): : 96 - 102
  • [26] Effects of Temperature and Stress Ratio on Low-Cycle Fatigue Crack Growth of G91 Steel
    Kim, Jong Bum
    Hwang, Soo-Kyung
    Kim, Bum Joon
    Lee, Jong Hoon
    Park, Chang Gyu
    Lee, Hyeong Yeon
    Kim, Moon Ki
    Lim, Byeong Soo
    KOREAN JOURNAL OF METALS AND MATERIALS, 2012, 50 (04): : 271 - 279
  • [27] LOW-CYCLE FATIGUE OF STIFFENED TUBULAR JOINTS
    BABA, S
    NINOMIYA, K
    KAJITA, T
    JOURNAL OF STRUCTURAL ENGINEERING-ASCE, 1984, 110 (02): : 301 - 315
  • [28] LOW-CYCLE FATIGUE OF WELDED JOINTS.
    Rie, Kyong-Tschong
    Schmidt, Ralph-Michael
    Schweissen und Schneiden/Welding and Cutting, 1986, 38 (10):
  • [29] Enhancing low-cycle fatigue strength of cruciform welded joints by weld toe grinding
    Kinoshita, K.
    Ueda, K.
    MAINTENANCE, MONITORING, SAFETY, RISK AND RESILIENCE OF BRIDGES AND BRIDGE NETWORKS, 2016, : 288 - 288
  • [30] Creep Crack Growth Behavior of a P91 Steel Weld
    Venugopal, S.
    Sasikala, G.
    Kumar, Yatindra
    STRUCTURAL INTEGRITY, 2014, 86 : 662 - 668
12345