"Vrstva plazmov\u00E9ho polymeru jako modelov\u00E1 mezivrstva v kompozitn\u00EDm materi\u00E1lu"@cs . . . "10"^^ . . "Plasma polymer film as model interlayer for polymer composites"@en . . "Brno" . "4"^^ . "Neuveden" . "Proc. NANO '04" . . "P(GA104/03/0236), P(ME 597), P(OC 527.110)" . . "composite, thin film, plasma"@en . "1-10" . "Van\u011Bk, Jan" . "Brno, CZ" . "26310" . "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 Young's 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 homogeeneous 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"@en . . "Plasma polymer film as model interlayer for polymer composites"@en . . "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 Young's 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 homogeeneous 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" . . . . . . . "RIV/00216305:26310/04:PU49377" . . . . "[1E9FB8619B00]" . . "579686" . "RIV/00216305:26310/04:PU49377!RIV/2005/MSM/263105/N" . "2004-10-13+02:00"^^ . "Plasma polymer film as model interlayer for polymer composites" . "\u010Cech, Vladim\u00EDr" . "B\u00E1lkov\u00E1, Radka" . "Plasma polymer film as model interlayer for polymer composites" . . "6"^^ . . "Vrstva plazmov\u00E9ho polymeru jako modelov\u00E1 mezivrstva v kompozitn\u00EDm materi\u00E1lu"@cs . "Poukazujeme na plazmochemickou nanotechnologii jako na hodnotn\u00FD n\u00E1stroj pro p\u0159\u00EDpravu tenk\u00FDch a ultratenk\u00FDch vrstev nebo vrstev s \u0159\u00EDzen\u00FDmi mechanick\u00FDmi vlastnostmi. Organosilanov\u00E9 tenk\u00E9 vrstvy byly deponov\u00E1ny na plo\u0161n\u00E9 substr\u00E1ty a analyzov\u00E1ny vyu\u017Eit\u00EDm nanoindenta\u010Dn\u00EDch technik s ohledem na Young\u016Fv modul pru\u017Enosti a adhezi vrstvy ke sklu. Modul pru\u017Enosti vrstvy plazmov\u00E9ho polymeru mohou b\u00FDt lehce \u0159\u00EDzeny zm\u011Bnou efektivn\u00EDho v\u00FDkonu kapacitn\u011B v\u00E1zan\u00E9ho v\u00FDboje. Homogenn\u00ED vrstev byla testov\u00E1na jako mezivrstva ve sklovl\u00E1knov\u00E9m kompozitn\u00EDm materi\u00E1lu. Svazky sklen\u011Bn\u00FDch vl\u00E1ken byly modifikov\u00E1ny unik\u00E1tn\u00ED technologi\u00ED umo\u017E\u0148uj\u00EDc\u00ED kontinu\u00E1ln\u00ED \u00FApravu svazku vl\u00E1ken. Kompozit ve form\u011B kr\u00E1tk\u00FDch tr\u00E1me\u010Dk\u016F byl testov\u00E1n standartn\u00EDmi metodami. Se vzr\u016Fstem efektivn\u00EDho v\u00FDkonu byla pevnost kr\u00E1tk\u00FDch tr\u00E1me\u010Dk\u016F ve smyku zlep\u0161ena na 112% v porovn\u00E1n\u00ED s kompozitu vyroben\u00E9ho z neupraven\u00FDch vl\u00E1ken, co\u017E bylo zp\u016Fsobeno zlep\u0161en\u00EDm vazeb na rozhran\u00ED."@cs . . "P\u0159ikryl, Radek" .