FATIGUE STRENGTH AND MICROSTRUCTURAL FEATURES OF SPRING STEEL

被引:0
|
作者
Sustarsic, Borivoj [1 ]
Borkovic, Predrag [1 ]
Echlseder, Wifried [2 ]
Gerstmayr, Gerhard [2 ]
Javidi, Ataollah [2 ]
Sencic, Bojan [3 ]
机构
[1] Inst Met & Technol, Ljubljana, Slovenia
[2] Inst Engn Mech, Leoben, Austria
[3] Store Steel, Store, Slovenia
来源
STRUCTURAL INTEGRITY AND LIFE-INTEGRITET I VEK KONSTRUKCIJA | 2011年 / 11卷 / 01期
关键词
spring steel; S-N curves; fatigue strength; notch effect; microstructure;
D O I
暂无
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Knowledge about the local dynamic properties of steel, as well as the local loading conditions is absolutely necessary for the fatigue analysis and life time prediction of spring steel components. Mono-leaf and double-leaf springs of specific geometry made of 51CrV4 spring steel manufactured in the Slovenian steel plant Store Steel are of interest in this case. Fatigue strength of the selected steel is determined in different loading modes for two different heat treatment conditions and two outmost directions of segregations of alloying elements. Microstructural characterisation of the selected steel is performed, as well as fractographic examination of fractured surfaces. The experimental results enable fatigue life prediction of spring steels using the local stress gradient concept.
引用
收藏
页码:27 / 34
页数:8
相关论文
共 50 条
  • [31] Influence of Different Degrees of Purity on the Fatigue Strength of Spring Steel 55 Cr 3.
    Kloos, K.H.
    Kaiser, B.
    Schreiber, D.
    Zeitschrift fuer Werkstofftechnik/Materials Technology and Testing, 1981, 12 (06): : 206 - 218
  • [32] Effect of different processes on inclusion size distribution and fatigue property of high strength spring steel
    Xue, Zhengliang
    Li, Zhengbang
    Zhang, Jiawen
    Kang T'ieh/Iron and Steel (Peking), 2002, 37 (01): : 22 - 25
  • [33] Effect of different processes on inclusion size distribution and fatigue property of high strength spring steel
    Xue, Z.L.
    Li, Z.B.
    Zhang, J.W.
    Wuhan Keji Daxue Xuebao (Ziran Kexue Ban)/Journal of Wuhan University of Science and Technology (Natural Science Edition), 2001, 24 (03):
  • [34] Fatigue strength of spring steel under axial and torsional loading in the very high cycle regime
    Akiniwa, Y.
    Stanzl-Tschegg, S.
    Mayer, H.
    Wakita, M.
    Tanaka, K.
    INTERNATIONAL JOURNAL OF FATIGUE, 2008, 30 (12) : 2057 - 2063
  • [35] FATIGUE STRENGTH OF HIGH STRENGTH STEEL.
    Hurakawa, Kenji
    Komatsu, Hideo
    Kitaura, Ikushi
    Sumitomo Metals, 1979, 31 (04): : 35 - 56
  • [36] Correlation of Interface Microstructural Features with the Adhesive Bonding Strength of Galvannealed Interstitial-Free Steel
    Park, Hyungkwon
    Jeong, Young-Joong
    Lee, Kangroh
    Kim, Hakchul
    Goo, Bong Joo
    Kim, Yunkyum
    Kang, Chungu
    Koh, Hyangjin
    METALS AND MATERIALS INTERNATIONAL, 2021, 27 (09) : 3250 - 3259
  • [37] Microstructural features of a ultra low carbon high strength acicular ferrite steel thick plate
    Cao, Zhi-Qiang
    Zhang, Ai-Bing
    Luo, Deng
    Xia, Zheng-Hai
    Zhang, Yong-Dong
    Wu, Kai-Ming
    PRICM 6: SIXTH PACIFIC RIM INTERNATIONAL CONFERENCE ON ADVANCED MATERIALS AND PROCESSING, PTS 1-3, 2007, 561-565 : 57 - +
  • [38] Correlation of Interface Microstructural Features with the Adhesive Bonding Strength of Galvannealed Interstitial-Free Steel
    Hyungkwon Park
    Young-Joong Jeong
    Kangroh Lee
    Hakchul Kim
    Bong Joo Goo
    Yunkyum Kim
    Chungu Kang
    Hyangjin Koh
    Metals and Materials International, 2021, 27 : 3250 - 3259
  • [39] Correlating microstructural features and mechanical properties with abrasion resistance of a high strength low alloy steel
    Jha, AK
    Prasad, BK
    Modi, OP
    Das, S
    Yegneswaran, AH
    WEAR, 2003, 254 (1-2) : 120 - 128
  • [40] Characterizing the Fatigue Damage in a Martensitic Spring Steel
    Wildeis, Anna
    Christ, Hans-Juergen
    Brandt, Robert
    Thimm, Matthias
    Fritzen, Claus-Peter
    STEEL RESEARCH INTERNATIONAL, 2021, 92 (12)
12345