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ČECH, V. KNOB, A. HOSEIN, H. BÁBÍK, A. DRZAL, L.
Original Title
Enhanced Interfacial Adhesion of Glass Fibers by Tetravinylsilane Plasma Modification
Type
conference paper
Language
English
Original Abstract
Atomic force microscopy (surface topography, phase imaging, lateral forces), atomic force acoustic microscopy, and dynamic mechanical analysis (modulus mapping) were utilized to characterize the interphase region for unsized, industrially sized, and plasma coated glass fibers (GF) in GF/polyester composite. The nanoscale imaging techniques revealed that all the composite interfaces (interlayer/fiber, matrix/interlayer, or matrix/fiber in case of unsized fibers) are relatively sharp with respect to a steep change of mechanical properties within a distance of only several tens of nanometers.
Keywords
Interfacial shear strength; Glass fiber; Plasma polymerization
Authors
ČECH, V.; KNOB, A.; HOSEIN, H.; BÁBÍK, A.; DRZAL, L.
Released
17. 12. 2012
Pages from
1
Pages to
4
Pages count
BibTex
@inproceedings{BUT97228, author="Vladimír {Čech} and Antonín {Knob} and Hazel-Ann {Hosein} and Adam {Bábík} and Lawrence {Drzal}", title="Enhanced Interfacial Adhesion of Glass Fibers by Tetravinylsilane Plasma Modification", booktitle="Proc. Int. Conf. Composite Interfaces (Interface 21)", year="2012", pages="1--4" }