Finite Element Analysis of Flexural Composite Members Considering Early-Age Concrete Properties

콘크리트의 초기재령특성을 고려한 합성형 휨 부재의 유한요소 거동해석

  • 강병수 (건국대학교 토목공학과 대학원) ;
  • 주영태 (건국대학교 토목공학과 대학원) ;
  • 신동훈 (건국대학교 토목공학과 대학원) ;
  • 이용학 (건국대학교 토목공학과)
  • Published : 2003.05.01

Abstract

A finite element formulation to predict the flexural behavior of composite girder is presented in which the early-age properties of concrete are specified including maturing of elastic modulus, creep and shrinkage. The time dependent constitutive relation accounting for the early-age concrete properties is derived in an incremental format by expanding the total form of stress-strain relation by the first order Taylor series with respect to the reference time. The total potential energy of the flexural composite member is minimized to derive the time dependent finite element equilibrium equation. Numerical applications are made for the 3-span double composite steel box girders which is a composite bridge girder filled with concrete at the bottom of the steel box in the negative moment region. The numerical analysis with considering the variation of concrete elastic modulus are performed to investigate the effect of it on the early-age behavior of composite structures. The one dimensional finite element analysis results are compared with the analytical method based on the sectional analysis. Close agreement is observed among the two methods.

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