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Structural Engineering and Mechanics Volume 5, Number 5, September 1997 , pages 663-667 DOI: https://doi.org/10.12989/sem.1997.5.5.663 |
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Improved numerical approach for the bond-slip behavior under cyclic loads |
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Kwak HG
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| Abstract | ||
| Bond-slip behavior between reinforcement and concrete under push-pull cyclic loadings is numerically investigated based on a reinforcement model proposed in this paper. The equivalent reinforcing steel model considering the bond-slip effect without taking double nodes is derived through the equilibrium at each node of steel and the compatibility condition between steel and concrete. Besides a specific transformation algorithm is composed to transfer the forces and displacements from the nodes of the steel element to the nodes of the concrete element. This model first results in an effective use in the case of complex steel arrangements where the steel elements cross the sides of the concrete elements and second turns the impossibility into a possibility in consideration of the bond-slip effect in three dimensional finite element analysis. Finally, the correlation studies between numerical and experimental results under the continuously repeated large deformation stages demonstrate the validity of developed reinforcing steel model and adopted algorithms. | ||
| Key Words | ||
| cyclic loading, bond-slip, double node, nonlinear analysis, embedded steel | ||
| Address | ||
| Kwak HG, KOREA ADV INST SCI & TECHNOL,DEPT CIVIL ENGN,TAEJON 305701,SOUTH KOREA | ||