균열제어 기능성 복합재료를 이용한 RC 휨 부재 보강수치해석

Numerical Simulation of Rehabilitated Flexural RC Member using High Performance Composite

  • 신승교 (연세대학교 사회환경시스템 공학부) ;
  • 김태균 (삼성물산㈜ 건설부문) ;
  • 임윤묵 (연세대학교 사회환경시스템 공학부)
  • 발행 : 2003.05.01

초록

In this study, a numerical model is developed using axial deformation link elements that can effectively predict the failure behavior of RC type structures. Using this mod 1, numerical analysis was performed to investigate the strengthening effect and failure behavior of structures repaired with a new material. High-Performance Cementitious Composites, which is characterized by its ductility with 5% strain-capacity is used as a repair material. To investigate the validity of developed numerical model, simulations of direct tension specimen and flexural specimen are performed and the results are compared with published ones. The similar analysis is performed for RC beam. Through this study, it is seen that predicted response has a good agreement with the experimental results. Using this verified numerical model, the strengthening effect of repaired with HPCC structure is analyzed through load-displacement curve and failure modes. Also, the same numerical analysis is performed in RC beam repaired with HPCC. The effect of HPCC ductility is estimated for the overall behavior of structures. Based on the results, the fundamental data are suggested for repaired structures with HPCC.

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