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논문 상세정보

Strength Interaction of Wide Steel Box Girder Subjected to Concurrent Action of Compression and Flexure for Cable-Supported Bridges

압축과 휨을 동시에 받는 케이블교량용 광폭 강박스거더의 강도상호작용

초록이 없습니다.

참고문헌 (23)

  1. 1. Th/eory and Design of Bridges Xanthakos 1994 
  2. 2. Cable Supported Bridges: Concept and Design Gimsing (3rd ed.) 2012 
  3. 3. Eurocode 3:Design of Steel Structures, Part 1-1: General Rules and Rules for Buildings European Committee for Standardization 2005 
  4. 4. Eurocode 3:Design of Steel Structures, Part 1-5: Plated Structure Element European Committee for Standardization 2005 
  5. 5. AASHTO LRFD Bridge Design Specifications American Association of State Highway and Transportation Officials 2014 
  6. 6. Specification for Structural Steel Buildings (ANSI/AISC 360-05) American Institute of Seel Construction 2005 
  7. 7. Steel Bridge Design Standard (Limit State Design, KDS 24 14 31) Ministry of Land, Infrastructure and Transport 2016 
  8. 8. Korean Highway Bridge Design Code (Limit State Design) for Cable-Supported Bridge Ministry of Land, Infrastructure and Transport 2015 
  9. 9. 10.2749/222137814814068157 
  10. 10. 10.1680/dgte3.31609 
  11. 11. Proposed Design Specifications for Steel Box Girder Bridges Wolchuk 1980 
  12. 12. Guide to Stability Design Criteria for Metal Structures Ziemian (6th ed.) 2010 10.1002/9780470549087 
  13. 13. Structural Engineering Report of Incheon Bridge PPP Project Incheon Bridge Co., Ltd. 2009 
  14. 14. Abaqus Analysis User’s Manual Version 6.14 Dassault Systemes Simulia Corp. 2014 
  15. 15. Journal of Korean Society of Steel Construction, KSSC Cho 22 4 377 2010 Flexural Behavior of Composite HSB I-Girders in Positive Moment 
  16. 16. Proceedings of the School of Engineering of Tokai University, Series E, Tokai University Manda 35 27 2010 Progressive Collapse Analysis of Steel Truss Bridges 
  17. 17. Kim, Kyung Sik. In-plane compressive strength of hybrid steel stiffened plate with single stiffener. 韓國鋼構造學會 論文集 = Journal of Korean Society of Steel Construction, vol.31, no.1, 65-73.
  18. 18. 임지훈, 최동호. HSB600 강재의 변형-경화를 고려한 강합성 I-거더의 정모멘트부 공칭휨강도. 韓國鋼構造學會 論文集 = Journal of Korean Society of Steel Construction, vol.29, no.1, 1-12.
  19. 19. Guide to Stability Design Criteria for Metal Structures Structural Stability Research Council (3rd ed.) 1976 
  20. 20. Rahman, Mahmudur, Okui, Yoshiaki, Anwer, Muhammad Atif. Probabilistic Strength at Serviceability Limit State for Normal and SBHS Slender Stiffened Plates Under Uniaxial Compression. International journal of steel structures, vol.18, no.4, 1397-1409.
  21. 21. Chou, C. C., Uang, C. M., Seible, F.. Experimental Evaluation of Compressive Behavior of Orthotropic Steel Plates for the New San Francisco-Oakland Bay Bridge. Journal of bridge engineering, vol.11, no.2, 140-150.
  22. 22. Shin, D.K., Le, V.A., Kim, K.. In-plane ultimate compressive strengths of HPS deck panel system stiffened with U-shaped ribs. Thin-walled structures, vol.63, 70-81.
  23. 23. Ultimate Compressive Strength of Stiffened Plates Fukumoto 201 1974 

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