A comprehensive FE model for slender HSC columns under biaxial eccentric loads
A comprehensive FE model for slender HSC columns under biaxial eccentric loads
A finite element (FE) model for analyzing slender reinforced high-strength concrete (HSC) columns under biaxial eccentric loading is formulated in terms of the Euler-Bernoulli theory. The cross section of columns is divided into discrete concrete and reinforcing steel fibers so as to account for varied material properties over the section. The interaction between axial and bending fields is introduced in the FE formulation so as to take the large-displacement or P-delta effects into consideration. The proposed model aims to be simple, user-friendly, and capable of simulating the full-range inelastic behavior of reinforced HSC slender columns. The nonlinear model is calibrated against the experimental data for slender column specimens available in the technical literature. By using the proposed model, a numerical study is carried out on pin-ended slender HSC square columns under axial compression and biaxial bending, with investigation variables including the load eccentricity and eccentricity angle. The calibrated model is expected to provide a valuable tool for more efficiently designing HSC columns.
Lou, Tiejiong
2d99cbfa-37a0-49c3-a033-38e1dd580ab6
Lopes, Sergio M R
8923e40d-7965-45b7-b866-01a56e958f16
Lopes, Adelino V
bccf1d9c-dc31-438b-93b0-e52a03847765
Sun, Wei
ab8e8179-f25d-4f51-95c3-8c009acf0c27
27 August 2019
Lou, Tiejiong
2d99cbfa-37a0-49c3-a033-38e1dd580ab6
Lopes, Sergio M R
8923e40d-7965-45b7-b866-01a56e958f16
Lopes, Adelino V
bccf1d9c-dc31-438b-93b0-e52a03847765
Sun, Wei
ab8e8179-f25d-4f51-95c3-8c009acf0c27
Lou, Tiejiong, Lopes, Sergio M R, Lopes, Adelino V and Sun, Wei
(2019)
A comprehensive FE model for slender HSC columns under biaxial eccentric loads.
Structural Engineering and Mechanics.
Abstract
A finite element (FE) model for analyzing slender reinforced high-strength concrete (HSC) columns under biaxial eccentric loading is formulated in terms of the Euler-Bernoulli theory. The cross section of columns is divided into discrete concrete and reinforcing steel fibers so as to account for varied material properties over the section. The interaction between axial and bending fields is introduced in the FE formulation so as to take the large-displacement or P-delta effects into consideration. The proposed model aims to be simple, user-friendly, and capable of simulating the full-range inelastic behavior of reinforced HSC slender columns. The nonlinear model is calibrated against the experimental data for slender column specimens available in the technical literature. By using the proposed model, a numerical study is carried out on pin-ended slender HSC square columns under axial compression and biaxial bending, with investigation variables including the load eccentricity and eccentricity angle. The calibrated model is expected to provide a valuable tool for more efficiently designing HSC columns.
Text
A comprehensive FE model
- Accepted Manuscript
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Published date: 27 August 2019
Identifiers
Local EPrints ID: 436001
URI: http://eprints.soton.ac.uk/id/eprint/436001
ISSN: 1225-4568
PURE UUID: e4593590-f7e2-4e22-8ac1-93ace9829168
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Date deposited: 26 Nov 2019 17:30
Last modified: 17 Mar 2024 05:04
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Contributors
Author:
Tiejiong Lou
Author:
Sergio M R Lopes
Author:
Adelino V Lopes
Author:
Wei Sun
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