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      송전철탑 사재의 상대 세장비 및 축력이 단부구속에 미치는 영향에 관한 연구 = A study on the effect of relative slenderness ratio and axial force of brace member on the end restraint in electric transmission tower

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      https://www.riss.kr/link?id=A75198263

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      다국어 초록 (Multilingual Abstract)

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      Current design practice of electric transmission tower is based on allowable stress design. But, it is difficult to find the reason for collapse of the transmission tower by the above design approach since the collapse occurred by secondary large deformations based on material and geometrical nonlinear behavior. The influence factor for the nonlinear behavior is mainly residual stress, initial imperfection and end restraints on members. In past study, necessity of the nonlinear analysis is examined through the comparison between elastic analysis and inelastic analysis. In this study, to reduce the complexity caused by the nonlinear analysis, a new analytical method (equivalent nonlinear analysis technic) is proposed. To confirm the reliability of the proposed, the computed ultimate load of transmission tower using the method was compared with that of the nonlinear finite method. Also, electric transmission tower experienced actual collapse in the past was analyzed by the proposed method and the cause of collapse was examined. Finally, the result of this study will be utilized in order to apply LRFD design approach to electric transmission tower design specification.
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      Current design practice of electric transmission tower is based on allowable stress design. But, it is difficult to find the reason for collapse of the transmission tower by the above design approach since the collapse occurred by secondary large defo...

      Current design practice of electric transmission tower is based on allowable stress design. But, it is difficult to find the reason for collapse of the transmission tower by the above design approach since the collapse occurred by secondary large deformations based on material and geometrical nonlinear behavior. The influence factor for the nonlinear behavior is mainly residual stress, initial imperfection and end restraints on members. In past study, necessity of the nonlinear analysis is examined through the comparison between elastic analysis and inelastic analysis. In this study, to reduce the complexity caused by the nonlinear analysis, a new analytical method (equivalent nonlinear analysis technic) is proposed. To confirm the reliability of the proposed, the computed ultimate load of transmission tower using the method was compared with that of the nonlinear finite method. Also, electric transmission tower experienced actual collapse in the past was analyzed by the proposed method and the cause of collapse was examined. Finally, the result of this study will be utilized in order to apply LRFD design approach to electric transmission tower design specification.

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      목차 (Table of Contents)

      • Abstract
      • 1. 서론
      • 2. 개발 기법의 내용 및 결과
      • 2.1 등가 비선형 해석기법 (ENAT)(Equivalent Nonlinear Analysis Technic)
      • 2.2 제안기법 ENAT의 검증
      • Abstract
      • 1. 서론
      • 2. 개발 기법의 내용 및 결과
      • 2.1 등가 비선형 해석기법 (ENAT)(Equivalent Nonlinear Analysis Technic)
      • 2.2 제안기법 ENAT의 검증
      • 2.3 ENAT의 적용
      • 3. 결론
      • 참고문헌
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