Publication detail
The shear adhesion strength between the FRC substructure and denture base resin: Effects of FRC architecture, adhesive composition and hydrolytic degradation
POLÁČEK, P. SALAJKOVÁ, M. JANČÁŘ, J.
Original Title
The shear adhesion strength between the FRC substructure and denture base resin: Effects of FRC architecture, adhesive composition and hydrolytic degradation
Type
journal article in Web of Science
Language
English
Original Abstract
The adhesion strength between fiber reinforced composite (FRC) members and denture-base resin is pivotal for enhancing removable denture long lasting performance and patient comfort. FRC reinforcing rods based on glass fibers impregnated with light curing resin were used to model the FRC substructure. The influence of fiber architecture and adhesive layer composition on the shear adhesion strength, sa, between the FRC and denture-base resin was investigated both dry and in moist environment to assess the stability of the adhesive bond in the oral cavit. The obtained results suggest that for a given fiber architecture, adhesive composition and test conditions, the wetting of the FRC surface was the primary variable affecting the sa. In the case of good wetting and formation of adhesive bond between the substrates, interlaminar shear strength of the unidirectional FRC substrate was the limiting factor. In multidirectional FRC substrate, the shear strength of the outer resin rich layer was limiting factor for the maximum adhesion strength
Keywords
Polymer–matrix composites (PMCs), Adhesive joints, Fracture, Interphase, Damage mechanics
Authors
POLÁČEK, P.; SALAJKOVÁ, M.; JANČÁŘ, J.
RIV year
2013
Released
22. 3. 2013
Publisher
Elsevier Ltd.
Location
United Kingdom
ISBN
0266-3538
Periodical
Composites Science and Technology
Year of study
77
Number
1
State
United Kingdom of Great Britain and Northern Ireland
Pages from
22
Pages to
28
Pages count
7
BibTex
@article{BUT97898,
author="Petr {Poláček} and Michaela {Salajková} and Josef {Jančář}",
title="The shear adhesion strength between the FRC substructure and denture base resin: Effects of FRC architecture, adhesive composition and hydrolytic degradation",
journal="Composites Science and Technology",
year="2013",
volume="77",
number="1",
pages="22--28",
doi="10.1016/j.compscitech.2013.01.011",
issn="0266-3538"
}