Non-linear finite-element modelling of reinforced concrete deep beams
Author(s): |
A. H. Alwathaf
|
---|---|
Medium: | journal article |
Language(s): | English |
Published in: | Structural Concrete, June 2010, n. 2, v. 11 |
Page(s): | 63-72 |
DOI: | 10.1680/stco.2010.11.2.63 |
Abstract: |
The characteristic behaviour and failure mechanism of a deep beam is investigated using non-linear finite-element analysis in this study. An accurate stress-strain relation is incorporated to describe the stress-strain behaviour of the concrete under compression for uniaxial and also for biaxial stress states. Material non-linearity in the compressive stress field is considered for the concrete in the orthogonal directions and the effect of microcracking confinement and softening on the stress-strain relationship under biaxial stresses are included, employing the equivalent uniaxial strain concept. A computer code FEARCB (finite-element analysis of reinforced concrete beams) is developed to analyse deep beams until failure. The applicability of the proposed finite-element model is investigated by demonstrating the non-linear structural response and failure mechanism of different deep beams and comparing with the available experimental work. Good agreement is achieved between the developed finite-element model and the experimental test results. |
- About this
data sheet - Reference-ID
10056722 - Published on:
18/10/2010 - Last updated on:
01/12/2018