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FLEISCHEROVÁ, B. ELIÁŠ, J.
Original Title
Development of meso-scale discrete model for simulations of ballistic experiments
Type
article in a collection out of WoS and Scopus
Language
English
Original Abstract
The paper presents a development of a meso-scale discrete model similar to the Lattice Discrete Particle Model (LDPM) build in programming language C$^{++}$. The Voronoi tesselation is used to build the random geometry of the model. Generalized-alpha method developed by Chung & Hulbert (1993) is used to integrate time within an implicit scheme. Mechanical behavior of short fibers is derived and implemented. Newton iterative method is used fo find equilibrium between right and left bridging force of the fiber. Fibers are added to the model with random orientation. In this stage of the development the computational model of the fiber-reinforced concrete slabs loaded by projectile is build. The contribution presents some partial results. Simulations of the ballistic experiments validated with the real data are the main future goal of this work.
Keywords
discrete meso=scale model, dynamics, fiber-reinforced concrete
Authors
FLEISCHEROVÁ, B.; ELIÁŠ, J.
Released
19. 10. 2023
Publisher
University of West Bohemia
Location
Czech Republic
ISBN
978-80-261-1177-1
Book
PROCEEDINGS OF COMPUTATIONAL MECHANICS 2023
Pages from
49
Pages to
51
Pages count
3
URL
https://www.kme.zcu.cz/compmech/download/proceedings/CM2023_Conference_Proceedings.pdf
BibTex
@inproceedings{BUT185489, author="Beáta {Fleischerová} and Jan {Eliáš}", title="Development of meso-scale discrete model for simulations of ballistic experiments", booktitle="PROCEEDINGS OF COMPUTATIONAL MECHANICS 2023", year="2023", pages="49--51", publisher="University of West Bohemia", address="Czech Republic", isbn="978-80-261-1177-1", url="https://www.kme.zcu.cz/compmech/download/proceedings/CM2023_Conference_Proceedings.pdf" }