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LIPOWCZAN, M. MIARKA, P. LEHKÝ, D.
Original Title
Determination of material parameters of alkali-activated concrete using specimens with different types of notches
Type
conference paper
Language
English
Original Abstract
The paper is focused on the determination of mechanical fracture parameters of alkali-activated concrete (AAC) specimens of nominal dimensions 80 × 80 × 240 mm with central notches of the following types: straight-through notch, chevron notch with 90° notch angle and chevron notch with 120° notch angle. In accordance with the results of the experimental research, a numerical simulation of the fracture test of the specimens tested in three-point bending was carried out. The 3D FEM computational model is based on the configuration of the laboratory test and was developed in ATENA-GiD software. Artificial neural network (ANN)-based inverse analysis was used to identify the mechanical fracture parameters of studied composite. A neural network ensemble was created, with one robust network for each type of notch, covering the entire domain of identified parameters. The main goal of this paper is to present the results of the identification of the mechanical fracture parameters of the AAC and their comparison with the values obtained by direct evaluation of the experiments. Another objective is to investigate the influence of the notch type on the mechanical fracture parameters of the AAC.
Keywords
Inverse analysis, alkali-activated concrete, numerical simulation, straight-through notch, chevron notch
Authors
LIPOWCZAN, M.; MIARKA, P.; LEHKÝ, D.
Released
7. 6. 2024
Publisher
American Institute of Physics
Location
Melville NY, USA
ISBN
978-0-7354-4954-1
Book
AIP Conference Proceedings
Edition number
3094
Pages count
4
BibTex
@inproceedings{BUT182521, author="Martin {Lipowczan} and Petr {Miarka} and David {Lehký}", title="Determination of material parameters of alkali-activated concrete using specimens with different types of notches", booktitle="AIP Conference Proceedings", year="2024", number="3094", pages="4", publisher="American Institute of Physics", address="Melville NY, USA", doi="10.1063/5.0214050", isbn="978-0-7354-4954-1" }