. "3"^^ . . . "3"^^ . "2010-08-30+02:00"^^ . "262084" . "P(1M0556)" . "Ho\u0159\u010D\u00EDkov\u00E9 nanokompozity:Pevnost, ta\u017Enost, \u00FAnava" . "architecture; Materials"@en . . "Magnesium nanocomposites: strength, ductility, fatigue."@en . . "\u017Dilinsk\u00E1 univerzita v \u017Diline" . "Kompozity na basi ho\u0159\u010D\u00EDkov\u00FDch slitin jsou \u0161iroce studov\u00E1ny hlavn\u011B proto, \u017Ee maj\u00ED vysokou specifickou pevnost a velk\u00FD specifick\u00FD modul. Kompozity s n\u00EDzkou hustotou maj\u00ED velk\u00FD potenci\u00E1l jako konstruk\u010Dn\u00ED materi\u00E1ly pro leteck\u00FD, automobilov\u00FD nebo optick\u00FD pr\u016Fmysl. Kompozity na basi Mg slitin zpevn\u011Bn\u00E9 \u010D\u00E1sticemi maj\u00ED v\u00FDhodu v pom\u011Brn\u011B mal\u00FDch v\u00FDrobn\u00EDch n\u00E1kladech a relativn\u011B snadn\u00E9m mechanick\u00E9m opracov\u00E1n\u00ED ve srovn\u00E1n\u00ED s kompozity zpevn\u011Bn\u00FDmi kr\u00E1tk\u00FDmi vl\u00E1kny. Nav\u00EDc p\u0159id\u00E1n\u00EDm \u010D\u00E1stic rozm\u011Br\u016F ?m. nap\u0159. SiC nebo kovov\u00FDch \u010D\u00E1stic se zvy\u0161uje nap\u011Bt\u00ED na mezi kluzu ho\u0159\u010D\u00EDkov\u00FDch slitin, modul, tvrdost, ot\u011Bruschopnost a d\u00E1le vnit\u0159n\u00ED tlumen\u00ED a teplotn\u00ED stabilita, av\u0161ak ta\u017Enost t\u011Bchto kompozit\u016F b\u00FDv\u00E1 zhor\u0161en\u00E1. Na druh\u00E9 stran\u011B pou\u017Eit\u00ED nano\u010D\u00E1stic vede k v\u00FDborn\u00E9 kombinaci pevnosti a ta\u017Enosti." . "11320" . . . . . . "Letn\u00E1 \u0161kola \u00FAnavy materi\u00E1lov 2010" . . "Drozd, Zden\u011Bk" . "Kompozity na basi ho\u0159\u010D\u00EDkov\u00FDch slitin jsou \u0161iroce studov\u00E1ny hlavn\u011B proto, \u017Ee maj\u00ED vysokou specifickou pevnost a velk\u00FD specifick\u00FD modul. Kompozity s n\u00EDzkou hustotou maj\u00ED velk\u00FD potenci\u00E1l jako konstruk\u010Dn\u00ED materi\u00E1ly pro leteck\u00FD, automobilov\u00FD nebo optick\u00FD pr\u016Fmysl. Kompozity na basi Mg slitin zpevn\u011Bn\u00E9 \u010D\u00E1sticemi maj\u00ED v\u00FDhodu v pom\u011Brn\u011B mal\u00FDch v\u00FDrobn\u00EDch n\u00E1kladech a relativn\u011B snadn\u00E9m mechanick\u00E9m opracov\u00E1n\u00ED ve srovn\u00E1n\u00ED s kompozity zpevn\u011Bn\u00FDmi kr\u00E1tk\u00FDmi vl\u00E1kny. Nav\u00EDc p\u0159id\u00E1n\u00EDm \u010D\u00E1stic rozm\u011Br\u016F ?m. nap\u0159. SiC nebo kovov\u00FDch \u010D\u00E1stic se zvy\u0161uje nap\u011Bt\u00ED na mezi kluzu ho\u0159\u010D\u00EDkov\u00FDch slitin, modul, tvrdost, ot\u011Bruschopnost a d\u00E1le vnit\u0159n\u00ED tlumen\u00ED a teplotn\u00ED stabilita, av\u0161ak ta\u017Enost t\u011Bchto kompozit\u016F b\u00FDv\u00E1 zhor\u0161en\u00E1. Na druh\u00E9 stran\u011B pou\u017Eit\u00ED nano\u010D\u00E1stic vede k v\u00FDborn\u00E9 kombinaci pevnosti a ta\u017Enosti."@cs . . . "[E483444A724A]" . "Metallic composites with low density are attractive for aerospace, automotive and optical industries. Magnesium alloy-based composites reinforced with particles are relatively easy machinable. Particles, e.g. SiC or metallic, increase the yield stress, elastic moduli, hardness, damping and thermal stability. However, ductility of composites is usually lower than that of matrix. On the other hand, nanoparticles cause an excellent combination of strength and ductility."@en . . "Magnesium nanocomposites: strength, ductility, fatigue."@en . "Ho\u0159\u010D\u00EDkov\u00E9 nanokompozity:Pevnost, ta\u017Enost, \u00FAnava"@cs . "9"^^ . . "RIV/00216208:11320/10:10082024" . . "RIV/00216208:11320/10:10082024!RIV11-MSM-11320___" . "Ho\u0159\u010D\u00EDkov\u00E9 nanokompozity:Pevnost, ta\u017Enost, \u00FAnava" . . "Ho\u0159\u010D\u00EDkov\u00E9 nanokompozity:Pevnost, ta\u017Enost, \u00FAnava"@cs . "\u017Dilina" . "978-80-554-0235-2" . "Trojanov\u00E1, Zuzanka" . "\u017Dilina" . "Luk\u00E1\u010D, Pavel" .