In recent years, the confinement effect in high strength concrete (HSC) has been studied by many researchers. Confinement effect results in increasing the strength and ductility of concretes columns considerably . To determine the amount of these increases and to simulate the behavior of these columns a compressive stress strain model containing the confinement effect is essential . In this paper , a number of well known stress strain models are evaluated against experimental data obtained by other researchers and their shortages are determined . Considering compressive strength, the modulus of elasticity , the strain corresponding to maximum stress and confinement stress are considered as main parameters , a new stress-strain model is developed such that it takes into account the effects of confinement . Comparing the results predicted by the proposed model with experimental results for a wide range of compressive strength from 20 to 120 MPa, show a good agreement .
Dabbagh, H., & ghavami, M. S. (2018). the Popovics’ Stress-Strain Model Incorporating Confinement Effect. Concrete Research, 11(1), 97-108. doi: 10.22124/jcr.2018.6451.1162
MLA
Hooshang Dabbagh; mohammad salman ghavami. "the Popovics’ Stress-Strain Model Incorporating Confinement Effect". Concrete Research, 11, 1, 2018, 97-108. doi: 10.22124/jcr.2018.6451.1162
HARVARD
Dabbagh, H., ghavami, M. S. (2018). 'the Popovics’ Stress-Strain Model Incorporating Confinement Effect', Concrete Research, 11(1), pp. 97-108. doi: 10.22124/jcr.2018.6451.1162
VANCOUVER
Dabbagh, H., ghavami, M. S. the Popovics’ Stress-Strain Model Incorporating Confinement Effect. Concrete Research, 2018; 11(1): 97-108. doi: 10.22124/jcr.2018.6451.1162
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