Publication detail

Use of cohesive approaches for modelling critical states in fibre-reinforced structural materials

KOZÁK, V. VALA, J.

Original Title

Use of cohesive approaches for modelling critical states in fibre-reinforced structural materials

Type

journal article in Web of Science

Language

English

Original Abstract

During the operation of structures, stress and deformation fields occur inside the materials used, which often ends in fatal damage of the entire structure. Therefore, the modelling of this damage, including the possible formation and growth of cracks, is at the forefront of numerical and applied mathematics. The finite element method (FEM) and its modification will allow us to predict the behaviour of these structural materials. Furthermore, some practical applications based on cohesive approach are tested. The main effort is devoted to composites with fibres and searching for procedures for their accurate modelling, mainly in the area where damage can be expected to occur. The use of the cohesive approach of elements that represent the physical nature of energy release in front of the crack front has proven to be promising not only in the direct use of cohesive elements, but also in combination with modified methods of standard finite elements.

Keywords

extended finite element method; fibre composites; nonlocal approaches; crack resistance

Authors

KOZÁK, V.; VALA, J.

Released

1. 7. 2024

Publisher

MDPI

Location

Basel

ISBN

1996-1944

Periodical

Materials

Year of study

17

Number

13

State

Swiss Confederation

Pages from

3177-1

Pages to

3177-21

Pages count

21

URL