Nonlinear finite element analysis of fibre-reinforced polymer/concrete joints
| Author | Abdel Baky, Hussien |
| Author | Ebead, Usama A |
| Author | Neale, Kenneth W |
| Available date | 2021-06-07T09:59:14Z |
| Publication Date | 2016 |
| Publication Name | Advances in Structural Engineering |
| Resource | Scopus |
| Abstract | 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. |
| Sponsor | The author(s) disclosed receipt of the following financial support for the research, authorship and/or publication of this article: This research was funded by the Natural Sciences and Engineering Research Council of Canada (NSERC). |
| Language | en |
| Publisher | SAGE Publications Inc. |
| Subject | Bridge decks Concretes Debonding Fiber reinforced plastics Fibers Interfaces (materials) Laminates Micromechanics Polymers Reinforced plastics Reinforcement Software packages Subroutines Fibre reinforced polymers Finite element software Interface elements Interfacial shear Microplane theory Non-linear finite-element analysis Numerical comparison Smeared crack model Finite element method |
| Type | Article |
| Pagination | 1604-1619 |
| Issue Number | 10 |
| Volume Number | 19 |
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