Publication detail
Metal particles constraint in glass matrix composites and its impact on fracture toughness enhancement
KOTOUL, M. DLOUHÝ, I.
Czech title
Vliv constraintu kovových částic na lomovou houževnatost skelných kompozitů.
English title
Metal particles constraint in glass matrix composites and its impact on fracture toughness enhancement
Type
journal article - other
Language
en
Original abstract
Experimental values of the fracture toughness obtained for borosilicate glass reinforced by vanadium or molybdenum particles were compared with theoretical predictions based upon traction/separation law together with a weight-function-based approach to study the contribution of such tractions on the magnitude of the stress intensity at the crack tip in chevron notched specimen.
Czech abstract
Experimental values of the fracture toughness obtained for borosilicate glass reinforced by vanadium or molybdenum particles were compared with theoretical predictions based upon traction/separation law together with a weight-function-based approach to study the contribution of such tractions on the magnitude of the stress intensity at the crack tip in chevron notched specimen.
English abstract
Experimental values of the fracture toughness obtained for borosilicate glass reinforced by vanadium or molybdenum particles were compared with theoretical predictions based upon traction/separation law together with a weight-function-based approach to study the contribution of such tractions on the magnitude of the stress intensity at the crack tip in chevron notched specimen.
Keywords in Czech
fracture toughness enhancement, glass matrix composites
Keywords in English
fracture toughness enhancement, glass matrix composites
RIV year
2004
Released
15.12.2004
ISSN
0921-5093
Journal
Materials Science and Engineering A
Volume
387-389
Number
1-2
Pages count
5
BIBTEX
@article{BUT42636,
author="Michal {Kotoul} and Ivo {Dlouhý},
title="Metal particles constraint in glass matrix composites and its impact on fracture toughness enhancement",
journal="Materials Science and Engineering A",
year="2004",
volume="387-389",
number="1-2",
month="December",
issn="0921-5093"
}