• Title/Summary/Keyword: 국부변형률근사법

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A Study of Fatigue Life Prediction for Automotive Spot Weldment using Local Strain Approach (국부변형률근사법을 이용한 차체 점용접부의 피로수명 예측에 관한 연구)

  • Lee, Song-In;Na, Sung-Hun;Na, Eui-Gyun;Yu, Hyo-Sun
    • Proceedings of the KSME Conference
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    • 2000.04a
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    • pp.61-66
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    • 2000
  • The fatigue crack initiation life is studied on automotive spot weldment made from cold rolled carbon steel(SPC) sheet by using DCPDM and local strain approach. It can be found that the fatigue crack initiation behavior in spot weldment can be definitely detected by DCPDM system. The local stresses and strains are estimated by elastic-plastic FEM analysis and the alternative approximate method based on Neuber's rule were applied to predict the fatigue life of spot weldment. A satisfactory correlation between the predicted life and experimental life can be found in spot weldment within a factor of 4.

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A Study of Fatigue Life Prediction for Automotive Spot Weldment Using Local Strain Approach (국부변형률근사법을 이용한 차체 점용접부의 피로수명 예측에 관한 연구)

  • Lee, Song-In;Gwon, Il-Hyeon;Lee, Beom-Jun;Yu, Hyo-Seon
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.25 no.2
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    • pp.220-227
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    • 2001
  • The fatigue crack initiation life is studied on automotive tensile-shear spot weldment made from cold rolled carbon steel(SPC) sheet by using DCPDM and local strain approach. It can be found that the fatigue crack initiation behavior in spot weldment can be definitely detected by DCPDM system. To predict the fatigue life of spot weldment, the local stresses and strains at the potential critical region are estimated by approximate method based on Neubers rule and elastic-plastic FEM analysis. A satisfactory correlation between the predicted life obtained from Local strain approach based on Neubers rule and experimental life can be found in spot weldment within a factor of 2.

Fatigue Life Analysis of Butt-welded specimen by Local Strain Approach (국부변형률방법을 이용한 용접시험편의 피로수명 해석)

  • Lee Dong-Hyong;Seo Jung-Won;Goo Byeong-choon;Seok Chang-Sung
    • Proceedings of the KSR Conference
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    • 2003.10c
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    • pp.73-78
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    • 2003
  • The residual stresses and. distortions of structures by welding exert negative effect on the safety of railroad structures. This investigation performs a thermal elasto-plastic analysis using finite element techniques to evaluate residual stresses in butted-welded joint. Considering this initial residual stresses, local stress and strain at the critical location (weld toe) during the loading were analyzed by elastic plastic finite element analysis. Fatigue crack initiation life and fatigue crack propagation life of butt-welded specimen were predicted by local strain approach and Neuber's role and Paris law. It is demonstrated that fatigue life estimates by local strain approach closely approximate the experimental results.

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Fatigue Life Analysis of Butt-welded Joint with and without Postweld Heat Treatment by Local Strain Approach (국부변형률 방법을 이용한 용접후열처리 전후 시편의 피로수명 해석)

  • Lee, Dong-Hyoung;Seo, Jeong-Won;Goo, Byeong-Choon;Seok, Chang-Sung
    • Proceedings of the KSME Conference
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    • 2003.11a
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    • pp.1086-1091
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    • 2003
  • The problem of residual stresses and fatigue behavior in welded structures is the main concern of welding research fields. The residual stresses and distortions of structures by welding exert negative effect on the safety of mechanical structures. Postweld heat treatment is usually carried out to relieve this residual stresses of welded joints. In this paper the influence of postweld heat treatment on fatigue life of butt-welded joint was investigated. To predict the effect of PWHT, an analytical model is developed by finite element and local strain approach and the result of fatigue life analysis is compared to experimental results. It is demonstrated that fatigue life estimates closely approximate the experimental results and PWHT provides some increase of fatigue lives in long-life fatigue region and no increase in short-life fatigue region because of the residual stress relaxation under tensile loads.

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