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      KCI등재 SCIE SCOPUS

      Theoretical analysis of Y-shape bridge and application

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      https://www.riss.kr/link?id=A104815861

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      다국어 초록 (Multilingual Abstract)

      Mechanic behavior of Y-shape thin-walled box girder bridge structure is complex, so one can not exactly hold the mechanical behavior of the Y-shape thin-walled box girder bridge structure through general calculation theory and analytical method. To ho...

      Mechanic behavior of Y-shape thin-walled box girder bridge structure is complex, so one can not exactly hold the mechanical behavior of the Y-shape thin-walled box girder bridge structure through general calculation theory and analytical method. To hold the mechanical behavior better, based on

      elementary beam theory, by increasing the degree of freedom analytical method, taking account of restrained torsiondistortion angledistortion warp and shearing lag effect at the same time, authors obtain a thin-walled box beam analytical element of 10 degrees of freedom of every node, derive stiffness matrix of the element, and code a finite element procedure. In addition, authors combine the obtained procedure with spatial grillage analytical method, meanwhile, they build a new analytical method that is the spatial thin-walled box girder element grillage analysis method. In order to validate the precision of the obtained analysis method, authors analyze a type Y-shape thin-walled box girder bridge structure according to the

      elementary beam theory analytical method, the shell theory analytical method and the spatial thin-walled box girder element grillage analysis method respectively. At last, authors test a type Y-shape thin-walled box girder bridge structure. Comparisons of the results of theory analysis with the experimental text show that the spatial thin-walled box girder element grillage analysis method is simple and exact. The research results are helpful for the knowledge of the mechanics property of these Y-shape thin-walled box girder

      bridge structures.

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      참고문헌 (Reference)

      1 Huang, H.Y., "Y-shape bridge mechanic analysis take account of constrained torsion, distortion effect" Huanan Science and Technology University 2002

      2 O’Briven, E.J., "Up stand finite element analysis of slab ridges" 69 : 671-683, 1998

      3 Wu, Y.P., "Ultimate load analysis of thin-walled box beams considering shear lag effect" 42 : 1199-1210, 2004

      4 Huang, J.Y., "Turn back analysis of thin-walled structure" China Railway Press 1998

      5 Zhang, S.D., "Thin-walled box beam shear lag effect" China Communication Press 1998

      6 Huang, J.Y., "Structure theory and calculation method of the viaduct bridge" Science Press 2000

      7 Huang, J.Y., "Stiffness method of thin-walled curve pole structure analysis" 5 : 3-19, 1994

      8 Kim, N.I., "Stiffness matrices for exural-torsional/lateral buckling and vibration analysis of thin-walled beam" 299 : 739-756, 2007

      9 Luo, Q.Z., "Membrane forces acting on thin-walled box girders considering shear lag effect" 42 : 741-757, 2004

      10 Morreu, P.J.B., "Influence of Joint Detail on the Flexural/Torsional Interaction of Thin-Walled Structures" 24 : 97-111, 1996

      1 Huang, H.Y., "Y-shape bridge mechanic analysis take account of constrained torsion, distortion effect" Huanan Science and Technology University 2002

      2 O’Briven, E.J., "Up stand finite element analysis of slab ridges" 69 : 671-683, 1998

      3 Wu, Y.P., "Ultimate load analysis of thin-walled box beams considering shear lag effect" 42 : 1199-1210, 2004

      4 Huang, J.Y., "Turn back analysis of thin-walled structure" China Railway Press 1998

      5 Zhang, S.D., "Thin-walled box beam shear lag effect" China Communication Press 1998

      6 Huang, J.Y., "Structure theory and calculation method of the viaduct bridge" Science Press 2000

      7 Huang, J.Y., "Stiffness method of thin-walled curve pole structure analysis" 5 : 3-19, 1994

      8 Kim, N.I., "Stiffness matrices for exural-torsional/lateral buckling and vibration analysis of thin-walled beam" 299 : 739-756, 2007

      9 Luo, Q.Z., "Membrane forces acting on thin-walled box girders considering shear lag effect" 42 : 741-757, 2004

      10 Morreu, P.J.B., "Influence of Joint Detail on the Flexural/Torsional Interaction of Thin-Walled Structures" 24 : 97-111, 1996

      11 Thuc Phuong Vo, "Flexural-torsional behavior of thin-walled closed-section composite box beams" 29 (29): 1774-1782, 2006

      12 Hambly, E.C., "Bridge super structural capability" China Communication Press 1982

      13 Wu, S.X., "Box girder bridge analysis with irregular arbitrary play geometry" 3 : 126-134, 1996

      14 Li, P., "Box beam bridge design of Y-shape compose structure" 11 : 29-31, 1996

      15 Ding, H.S., "Analysis of plan abnormity bridge" 1996

      16 Nie, Y.Z., "Analysis of elastic thin-walled beam bridge" China Communication Press 2000

      17 Hao, W.H., "ANSYS civil engineering application example" China Water Electricity Press 2005

      18 Mira Mitra, S., "A new super convergent thin walled composite beam element for analysis of box beam structures" 41 : 1491-1518, 2004

      19 Yaping Wu, "A finite beam element for analyzing shear lag and shear deformation effects in composite-laminated box girders" 82 : 763-771, 2004

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      2016 1.12 0.62 0.94
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.79 0.68 0.453 0.33
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