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ČECH, V. JONES, F. BÁLKOVÁ, R. GORUPPA, A. VANĚK, J. PŘIKRYL, R.
Original Title
Functional nanostructures for composite interphases
Type
conference paper
Language
English
Original Abstract
We point out a plasmachemical nanotechnology that is worthwhile for preparation of thin and ultrathin films of controlled mechanical properties. Organosilicon thin films have been deposited on planar substrates and analysed employing nanoindentation measurements with respect to the Youngs modulus of films and adhesion bonding at the film/glass interface. The modulus of plasma-polymerised film can be controlled simply by the effective power fed into the capacitive-coupled low-pressure plasma. The homogeneous film was tested as an interlayer for GF/polyester composites. Glass fibre (GF) bundles were surface modified by plasma polymer in a unique technological system enabling continuous processing of the bundle. GF/polyester composites in a form of short beams have been fabricated using the coated fibres and tested according to the standard test method. By increasing the effective power (interlayer modulus), the short-beam strength has enhanced up to 112% in a comparison with untreated glass fibres and that enhancement has been supported by an improvement of interfacial bonding as well.
Key words in English
Organosilicon thin films, film/glass interface,mechanical properties
Authors
ČECH, V.; JONES, F.; BÁLKOVÁ, R.; GORUPPA, A.; VANĚK, J.; PŘIKRYL, R.
RIV year
2003
Released
1. 1. 2003
Publisher
Maďarsko
Location
Pages count
2
BibTex
@inproceedings{BUT8369, author="Vladimír {Čech} and Frank {Jones} and Radka {Bálková} and Alexander {Goruppa} and Jan {Vaněk} and Radek {Přikryl}", title="Functional nanostructures for composite interphases", booktitle="Functional nanostructures for composite interphases", year="2003", pages="2", publisher="Maďarsko", address="Maďarsko" }