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KRÁL, P. HOKEŠ, F. HUŠEK, M. KALA, J. HRADIL, P.
Original Title
Optimization-Based Inverse Identification of the Parameters of a Concrete Cap Material Model
Type
conference paper
Language
English
Original Abstract
Issues concerning the advanced numerical analysis of concrete building structures in sophisticated computing systems currently require the involvement of nonlinear mechanics tools. The efforts to design safer, more durable and mainly more economically efficient concrete structures are supported via the use of advanced nonlinear concrete material models and the geometrically nonlinear approach. The application of nonlinear mechanics tools undoubtedly presents another step towards the approximation of the real behaviour of concrete building structures within the framework of computer numerical simulations. However, the success rate of this application depends on having a perfect understanding of the behaviour of the concrete material models used and having a perfect understanding of the used material model parameters meaning. The effective application of nonlinear concrete material models within computer simulations often becomes very problematic because these material models very often contain parameters (material constants) whose values are difficult to obtain. However, getting of the correct values of material parameters is very important to ensure proper function of a concrete material model used. Today, one possibility, which permits successful solution of the mentioned problem, is the use of optimization algorithms for the purpose of the optimization-based inverse material parameter identification. Parameter identification goes hand in hand with experimental investigation while it trying to find parameter values of the used material model so that the resulting data obtained from the computer simulation will best approximate the experimental data. This paper is focused on the optimization-based inverse identification of the parameters of a concrete cap material model which is known under the name the Continuous Surface Cap Model. Within this paper, material parameters of the model are identified on the basis of interaction between nonlinear computer simulations, gradient based and nature inspired optimization algorithms and experimental data, the latter of which take the form of a load-extension curve obtained from the evaluation of uniaxial tensile test results. The aim of this research was to obtain material model parameters corresponding to the quasi-static tensile loading which may be further used for the research involving dynamic and high-speed tensile loading. Based on the obtained results it can be concluded that the set goal has been reached.
Keywords
Unconfined uniaxial tensile test; optimization-based parameter identification; concrete modelling; material parameter; computer simulation
Authors
KRÁL, P.; HOKEŠ, F.; HUŠEK, M.; KALA, J.; HRADIL, P.
Released
12. 6. 2017
Publisher
IOP Publishing
ISBN
1757-899X
Periodical
IOP Conference Series: Materials Science and Engineering
Year of study
245
Number
1
State
United Kingdom of Great Britain and Northern Ireland
Pages from
Pages to
10
Pages count
URL
http://iopscience.iop.org/article/10.1088/1757-899X/245/3/032078
Full text in the Digital Library
http://hdl.handle.net/11012/137175
BibTex
@inproceedings{BUT146034, author="Petr {Král} and Filip {Hokeš} and Martin {Hušek} and Jiří {Kala} and Petr {Hradil}", title="Optimization-Based Inverse Identification of the Parameters of a Concrete Cap Material Model", booktitle="World Multidisciplinary Civil Engineering-Architecture-Urban Planning Symposium - WMCAUS", year="2017", journal="IOP Conference Series: Materials Science and Engineering", volume="245", number="1", pages="1--10", publisher="IOP Publishing", doi="10.1088/1757-899X/245/3/032078", issn="1757-899X", url="http://iopscience.iop.org/article/10.1088/1757-899X/245/3/032078" }