A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Nonlinear finite element analysis of fibre-reinforced polymer/concrete joints
The objective of this research work is to simulate the interfacial shear response of fibre-reinforced polymer/concrete joints using a micromechanics-based concrete approach. The M4 version of the microplane concrete theory is coded in FORTRAN and implemented as a parallel user-defined subroutine into the commercial finite element software package ADINA. This article first focuses on three-dimensional nonlinear micromechanics-based finite element analyses. Then, validations are carried out using experimental results of 40 fibre-reinforced polymer/concrete joints. The objective is to assess the accuracy of the microplane approach to represent the interfacial shear behaviour of the fibre-reinforced polymer/concrete joints as an alternative to implementing interface elements. At the end of this article, numerical comparisons are presented between the predictions using a phenomenological concrete constitutive law adopted in the software package (with a smeared crack model) and the micromechanics-based analysis (microplane theory) to simulate the concrete behaviour.
Nonlinear finite element analysis of fibre-reinforced polymer/concrete joints
The objective of this research work is to simulate the interfacial shear response of fibre-reinforced polymer/concrete joints using a micromechanics-based concrete approach. The M4 version of the microplane concrete theory is coded in FORTRAN and implemented as a parallel user-defined subroutine into the commercial finite element software package ADINA. This article first focuses on three-dimensional nonlinear micromechanics-based finite element analyses. Then, validations are carried out using experimental results of 40 fibre-reinforced polymer/concrete joints. The objective is to assess the accuracy of the microplane approach to represent the interfacial shear behaviour of the fibre-reinforced polymer/concrete joints as an alternative to implementing interface elements. At the end of this article, numerical comparisons are presented between the predictions using a phenomenological concrete constitutive law adopted in the software package (with a smeared crack model) and the micromechanics-based analysis (microplane theory) to simulate the concrete behaviour.
Nonlinear finite element analysis of fibre-reinforced polymer/concrete joints
Baky, Hussien Abdel (author) / Ebead, Usama A (author) / Neale, Kenneth W (author)
Advances in Structural Engineering ; 19 ; 1604-1619
2016-10-01
16 pages
Article (Journal)
Electronic Resource
English
Nonlinear finite element analysis of fibre-reinforced polymer/concrete joints
| Online Contents | 2016
A Review on Finite Element Analysis of Fibre Reinforced Polymer Reinforced Concrete Beam
| Springer Verlag | 2023
Nonlinear Finite Element Analysis of Interior Beam-Column Joints in Reinforced Concrete Frame
| British Library Conference Proceedings | 2012
| British Library Online Contents | 2018