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HOKEŠ, F. KRÁL, P. TRCALA, M.
Original Title
Modelling uniaxial compression of concrete specimen with utilization of nonlinear material models inside ANSYS and RFEM
Type
conference paper
Language
English
Original Abstract
The utilization of nonlinear material models within numerical simulation of response of concrete structures moves the numerical methods closer to the reality. Nevertheless, the use of these models is still not common in the engineering practice. The mistrust may lie in relative complexity of a background theory. The proposed article, which is about modelling of a simple uniaxial compression with 3D brick elements, shows the high accuracy of results obtained by various nonlinear material models in two different computational systems: ANSYS and RFEM. The solution of the uniaxial compression problem is solved both with nonlinear material models based on plasticity and models based on damage theory. The article further shows softening capability of material models implemented in RFEM computational system. The text of the article points to pros and cons of used models and gives basic advices for practical usage.
Keywords
ANSYS; RFEM; concrete; uniaxial compression; nonlinear models; multiPlas.
Authors
HOKEŠ, F.; KRÁL, P.; TRCALA, M.
Released
24. 7. 2019
ISBN
978-0-7354-1854-7
Book
AIP Conference Proceedings
1551-7616
Periodical
Year of study
2019
Number
120010
State
United States of America
Pages from
1
Pages to
4
Pages count
BibTex
@inproceedings{BUT162647, author="Filip {Hokeš} and Petr {Král} and Miroslav {Trcala}", title="Modelling uniaxial compression of concrete specimen with utilization of nonlinear material models inside ANSYS and RFEM", booktitle="AIP Conference Proceedings", year="2019", journal="AIP Conference Proceedings", volume="2019", number="120010", pages="1--4", doi="10.1063/1.5114112", isbn="978-0-7354-1854-7", issn="1551-7616" }