1. Fracture parameters of concrete C40/50 and C50/60 determined by experimental testing and numerical simulation via inverse analysis.
- Author
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Zimmermann, Thomas and Lehký, David
- Subjects
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CONCRETE fractures , *COMPUTER simulation , *STOCHASTIC processes , *COMPUTATIONAL mechanics , *FRACTURE mechanics , *ARTIFICIAL neural networks - Abstract
The use of stochastic non-linear computational mechanics in real-world applications faces a fundamental obstacle: the lack of knowledge regarding the stochastic properties of material parameters involved in the problem. The paper describes the results of an experimental program which was focused on the determination of fracture-mechanical parameters and their stochastic models of different concrete types after different hardening durations. The investigated types of concrete, C40/50 and C50/60, are used industrially for the production of pre-fabricated concrete elements (e.g. double T-shaped beam elements for roofing). The fracture-mechanical parameters were determined by wedge splitting tests on cubic specimens with notch. Moreover, numerical simulations were carried out for the identification of material parameters by using artificial neural networks. All results obtained from the individual tests will here be presented, compared and discussed. Finally, recommendations for stochastic models of selected parameters of the analysed concrete will be given. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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