"Increasing attention is devoted to the preparation of environmentally compatible materials. Natural plant fibres in diameter tens of microns are gaining acceptance as glass fibre replacements in composite manufacture due to their mechanical parameters, low density, renewable resources and biodegradability at present. These plant fibres present an available alternative to artificial fibres in polymer composites specially with matrix from biopolymers as polyvinyl alcohol (PVA) which is one of the very few vinyl polymers soluble in water also susceptible of ultimate biodegradation in the presence of suitably acclimated microorganisms. This preliminary study mainly deals with the mechanical properties (strength, modulus) of the composite system polyvinyl alcohol - defibrillated recycled paper..."@en . . "RIV/46747885:24210/06:@0000122!RIV07-MSM-24210___" . . "Endres, H.-J." . . . . . "2"^^ . "[8444A2DECF7A]" . "3"^^ . . "RIV/46747885:24210/06:@0000122" . "495173" . "V\u00FDroba a vlastnosti biopolymern\u00E1\u00EDch kompozit\u016F s p\u0159\u00EDrodn\u00EDmcelul\u00F3zov\u00FDm vlaknem jako plnivem."@cs . . "Production and Properties of Biopolymer Composites with Natural Cellulose Based Fibres as a Filler." . "Vackov\u00E1, Ta\u0165\u00E1na" . . "24210" . "Production and Properties of Biopolymer Composites with Natural Cellulose Based Fibres as a Filler."@en . . "Production and Properties of Biopolymer Composites with Natural Cellulose Based Fibres as a Filler."@en . . . "Vzr\u016Fstaj\u00EDc\u00ED pozornost je v\u011Bnov\u00E1na p\u0159\u00EDprav\u011B materi\u00E1l\u016F kompatibiln\u00EDm s \u017Eivotn\u00EDm prost\u0159ed\u00EDm.P\u0159\u00EDrodn\u00ED vl\u00E1kna v pr\u016Fm\u011Bru des\u00EDtky mikrometr\u016F jsou p\u0159ijatelnou n\u00E1hradou skeln\u00FDch vl\u00E1ken.Tato vl\u00E1kna p\u0159edstavuj\u00ED dostupnou alternativu k um\u011Bl\u00FDm vl\u00E1kn\u016Fm v polymern\u00EDch kompozitech zvl\u00E1\u0161t\u011B s matric\u00ED z biopolymer\u016F jako polyvinylalkohol (PVA),kter\u00FD jke jedn\u00EDm z m\u00E1la vinyl polymer\u016F rozpustn\u00FDch ve vod\u011B, tak\u00E9 n\u00E1chyln\u00FD k biodegradaci.Mechanick\u00E9 vlastnosti (pevnost, modul) kompozitn\u00EDho syst\u00E9mu polyvinyl alkohol - rozvl\u00E1kn\u011Bn\u00FD recyklovan\u00FD pap\u00EDr byly zkoum\u00E1ny v p\u0159edchoz\u00ED studii. \u00DA\u010Del byl vyrobit celul\u00F3zov\u00E1 vl\u00E1kna z recyklovan\u00E9ho poap\u00EDru v laboratorn\u00EDm m\u011B\u0159\u00EDtku, aby se vytvo\u0159ily nov\u00E9 kompozitn\u00ED materi\u00E1ly s \u0159adou matri\u010Dn\u00EDch pojiv a aby se ur\u010Dily jejich tahov\u00E9 a pevnostn\u00ED vlastnosti..."@cs . "%22recycled paper; cellulose fibres; mechanical treatment; polyvinyl alcohol (PVA); mechanical properties.%22"@en . "V\u00FDroba a vlastnosti biopolymern\u00E1\u00EDch kompozit\u016F s p\u0159\u00EDrodn\u00EDmcelul\u00F3zov\u00FDm vlaknem jako plnivem."@cs . . . "Production and Properties of Biopolymer Composites with Natural Cellulose Based Fibres as a Filler." . . . "Kroisov\u00E1, Dora" . . . "Increasing attention is devoted to the preparation of environmentally compatible materials. Natural plant fibres in diameter tens of microns are gaining acceptance as glass fibre replacements in composite manufacture due to their mechanical parameters, low density, renewable resources and biodegradability at present. These plant fibres present an available alternative to artificial fibres in polymer composites specially with matrix from biopolymers as polyvinyl alcohol (PVA) which is one of the very few vinyl polymers soluble in water also susceptible of ultimate biodegradation in the presence of suitably acclimated microorganisms. This preliminary study mainly deals with the mechanical properties (strength, modulus) of the composite system polyvinyl alcohol - defibrillated recycled paper..." . "Z(MSM4674788501)" .