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KRÁL, P. HRADIL, P. KALA, J.
Original Title
Evaluation of constitutive relations for concrete modeling based on an incremental theory of elastic strain-hardening plasticity
Type
journal article in Web of Science
Language
English
Original Abstract
Today, the modeling of concrete as a material within finite element simulations is predominantly done through nonlinear material models of concrete. In current sophisticated computational systems, there are a number of complex concrete material models which are based on theory of plasticity, damage mechanics, linear or nonlinear fracture mechanics or combinations of those theories. These models often include very complex constitutive relations which are suitable for the modeling of practically any continuum mechanics tasks. However, the usability of these models is very often limited by their parameters, whose values must be defined for the proper realization of appropriate constitutive relations. Determination of the material parameter values is very complicated in most material models. This is mainly due to the non-physical nature of most parameters, and also the large number of them that are frequently involved. In such cases, the designer cannot make practical use of the models without having to employ the complex inverse parameter identification process. In continuum mechanics, however, there are also constitutive relations that require the definition of a relatively small number of parameters which are predominantly of a physical nature and which describe the behavior of concrete very well within a particular task. This paper presents an example of such constitutive relations which have the potential for implementation and application in finite element systems. Specifically, constitutive relations for modeling the plane stress state of concrete are presented and subsequently tested and evaluated in this paper. The relations are based on the incremental theory of elastic strain-hardening plasticity in which a non-associated flow rule is used. The calculation result for the case of concrete under uniaxial compression is compared with the experimental data for the purpose of the validation of the constitutive relations used.
Keywords
constitutive relations; elastic strain-hardening plasticity; non-associated flow rule; concrete; yield surface; stress-strain curve
Authors
KRÁL, P.; HRADIL, P.; KALA, J.
Released
1. 8. 2018
Location
SOUTH KOREA
ISBN
1598-818X
Periodical
Computers and Concrete
Year of study
22
Number
2
State
Republic of Korea
Pages from
227
Pages to
237
Pages count
11
URL
https://www.scopus.com/record/display.uri?eid=2-s2.0-85052623476&origin=inward&txGid=af1bdc2e1b0f922e50ee0077e218b243
BibTex
@article{BUT156388, author="Petr {Král} and Petr {Hradil} and Jiří {Kala}", title="Evaluation of constitutive relations for concrete modeling based on an incremental theory of elastic strain-hardening plasticity", journal="Computers and Concrete", year="2018", volume="22", number="2", pages="227--237", doi="10.12989/cac.2018.22.2.227", issn="1598-818X", url="https://www.scopus.com/record/display.uri?eid=2-s2.0-85052623476&origin=inward&txGid=af1bdc2e1b0f922e50ee0077e218b243" }