Multi-level optimization of input parameters for modeling of fibre reinforced concrete

Multi-level optimization of input parameters for modeling of fibre reinforced concrete

Paper in proceedings (conference paper)

Appropriate material input parameters for numerical models of steel fibre reinforced concrete were identified from measured response of four-point bending beams using inverse analysis at several levels of complexity including advanced stochastic analysis and neural network technology. Based on the obtained results the optimal material input data sets are suggested for practical utilization of various numerical material models of fibre reinforced concrete in the nonlinear computer simulation of response and damage of FRC structures and structural parts.

Appropriate material input parameters for numerical models of steel fibre reinforced concrete were identified from measured response of four-point bending beams using inverse analysis at several levels of complexity including advanced stochastic analysis and neural network technology. Based on the obtained results the optimal material input data sets are suggested for practical utilization of various numerical material models of fibre reinforced concrete in the nonlinear computer simulation of response and damage of FRC structures and structural parts.

Computer simulation, Fibre reinforced concrete, Nonlinear material models, Identification of material parameters, Fracture analysis

Computer simulation, Fibre reinforced concrete, Nonlinear material models, Identification of material parameters, Fracture analysis

PUKL, R.; SAJDLOVÁ, T.; LEHKÝ, D.; NOVÁK, D.

2014

22.04.2013

Tel-Aviv. Israel

978-965-92039-0-1

Engineering a Concrete Future: Technology, Modeling & Construction

135

138

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