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HAVLÍKOVÁ, I. ŠIMONOVÁ, H. PAIL, T. NAVRÁTILOVÁ, E. MAJTÁNOVÁ, R. KERŠNER, Z.
Original Title
Effect of Softening Function Type in the Double-K Fracture Model: Concrete Specimens with and without Fibres
Type
journal article - other
Language
English
Original Abstract
Cement-based composites are traditionally a commonly used material in civil engineering structures. The basic representative of this type of material is concrete, a quasi-brittle composite in which crack resistance can be achieved by the addition of fibres. The double-K fracture model can be used to calculate the fracture-mechanical parameter values of structural concrete with and without polypropylene fibres. This model combines the concept of cohesive forces acting on the crack length with a criterion based on the stress intensity factor, using a ‘softening function’ to determine the cohesive part of fracture toughness. In this paper, authors determine the effect of the type of this softening function on the evaluation of fracture tests performed on sets of concrete specimens with and without polypropylene fibres.
Keywords
double-K fracture model, softening function, concrete, polypropylene fibre, fracture test
Authors
HAVLÍKOVÁ, I.; ŠIMONOVÁ, H.; PAIL, T.; NAVRÁTILOVÁ, E.; MAJTÁNOVÁ, R.; KERŠNER, Z.
RIV year
2014
Released
30. 8. 2014
Publisher
Association for Engineering Mechanics
Location
Praha
ISBN
1802-1484
Periodical
Engineering Mechanics
Year of study
21
Number
2
State
Czech Republic
Pages from
111
Pages to
119
Pages count
9
BibTex
@article{BUT110956, author="Ivana {Havlíková} and Hana {Šimonová} and Tomáš {Pail} and Eva {Soukupová} and Romana Viktória {Majtánová} and Zbyněk {Keršner}", title="Effect of Softening Function Type in the Double-K Fracture Model: Concrete Specimens with and without Fibres", journal="Engineering Mechanics", year="2014", volume="21", number="2", pages="111--119", issn="1802-1484" }