Publication detail

Crack deflection under mixed-mode conditions in the fine-grained composites based on water glass-activated slag

MALÍKOVÁ, L. ŠIMONOVÁ, H. KUCHARCZYKOVÁ, B.

Original Title

Crack deflection under mixed-mode conditions in the fine-grained composites based on water glass-activated slag

Type

journal article in Web of Science

Language

English

Original Abstract

The paper is devoted to an analysis of the crack deflection angle in a semi-circular disc made of a fine-grained composite based on water glass-activated slag. Three-point bending together with an inclined crack ensures the crack propagation in I+II mixed mode. Generally, concrete material exhibits quasi-brittle fractme behavior. which is difficult to understand. Multi-parameter fracture mechanics concept shall help to describe the crack propagation and influence of choice of a suitable distance for application of generalized fiacture criteria is investigated. In the work, the well-known Maximum Tangential Stress (MTS) criterion as well as Strain Energy Density (SED) criterion are applied in their multi-parameter form find the initial kink angle. Williams power expansion is used to approximate the crack-tip stress field. Its coefficients need to be calculated numerically via combination of the finite element solution and over-deterministic method. Results are discussed and recommendations are stated regarding the critical length parameter as well as the number of the Williams expansion coefficients.

Keywords

Crack dellecdion; mixed-mode loading; fine-grained composite

Authors

MALÍKOVÁ, L.; ŠIMONOVÁ, H.; KUCHARCZYKOVÁ, B.

Released

2. 3. 2022

Publisher

WORLD SCIENTIFIC PUBL CO PTE LTD

Location

SINGAPORE

ISBN

1756-9737

Periodical

Journal of Multiscale Modeling

Year of study

13

Number

01

State

People's Republic of China

Pages from

1

Pages to

8

Pages count

8

URL

BibTex

@article{BUT177936,
  author="Lucie {Malíková} and Hana {Šimonová} and Barbara {Kucharczyková}",
  title="Crack deflection under mixed-mode conditions in the fine-grained composites based on water glass-activated slag",
  journal="Journal of Multiscale Modeling",
  year="2022",
  volume="13",
  number="01",
  pages="1--8",
  doi="10.1142/S1756973721440042",
  issn="1756-9737",
  url="https://www.worldscientific.com/doi/10.1142/S1756973721440042"
}