Numerical study of the effect of concrete cover and the friction of steel concrete interface

The work presented in this paper resume a numerical analysis of the concrete cover effect, on the resistance of the steel-concrete interface. The effect of friction on the interface behavior is also included. For this, a brief description of the experimental steps generally used for the characteriza...

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Published in:MATEC Web of Conferences 2019, Vol.286, p.2008
Main Authors: Zenasni, Z., Atlati, S., Haterbouch, M., Hannawi, K., Agbodgan, W.P., Nasri, K., Addou, R., Zenasni, M.
Format: Article
Language:English
Subjects:
Abaqus-explicit
adherence
CDP
Civil Engineering
Computer simulation
Concrete
Engineering Sciences
finite element
Finite element method
Friction
Friction resistance
Mathematical models
Numerical analysis
Steel-Concrete interface
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container_start_page 2008
container_title MATEC Web of Conferences
container_volume 286
creator Zenasni, Z.
Atlati, S.
Haterbouch, M.
Hannawi, K.
Agbodgan, W.P.
Nasri, K.
Addou, R.
Zenasni, M.
description The work presented in this paper resume a numerical analysis of the concrete cover effect, on the resistance of the steel-concrete interface. The effect of friction on the interface behavior is also included. For this, a brief description of the experimental steps generally used for the characterization of the steel-concrete interface is presented. Also, the CDP model, Concrete Damage Plasticity, is illustrated. The results of the numerical simulation using the Abaqus code are presented with different diameters of coatings with and without friction.
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subjects Abaqus-explicit
adherence
CDP
Civil Engineering
Computer simulation
Concrete
Engineering Sciences
finite element
Finite element method
Friction
Friction resistance
Mathematical models
Numerical analysis
Steel-Concrete interface
title Numerical study of the effect of concrete cover and the friction of steel concrete interface
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