"Titan, je v sou\u010Dasn\u00E9 dob\u011B nejpou\u017E\u00EDvan\u011Bj\u0161\u00EDm kovem na v\u00FDrobu pasivn\u00EDch implantabiln\u00EDch prost\u0159edk\u016F zdravotnick\u00E9 techniky jako jsou nap\u0159. nitrokostn\u00ED implant\u00E1ty. Pro oblasti medic\u00EDny vyu\u017E\u00EDvaj\u00EDc\u00ED implantabiln\u00ED kovov\u00E9 materi\u00E1ly se nab\u00EDz\u00ED k vyu\u017Eit\u00ED objemov\u00FD nanostrukturn\u00ED titan, jeho\u017E v\u00FDroba spo\u010D\u00EDv\u00E1 v tv\u00E1\u0159en\u00ED vstupn\u00EDho titanu technologi\u00ED SPD - t\u011B\u017Ekou plastickou deformac\u00ED, p\u0159i kter\u00E9 z\u016Fst\u00E1vaj\u00ED chemick\u00E9 vlastnosti stejn\u00E9, ale mechanick\u00E9 vlastnosti v\u00FDrazn\u011B lep\u0161\u00ED ve vztahu k pevnosti. Z v\u00FDsledk\u016F v\u00FDzkumu autor\u016F \u010Dl\u00E1nku z\u00EDsk\u00E1 v\u00FDrobce znalosti o biologick\u00E9m chov\u00E1n\u00ED materi\u00E1l\u016F podle parametr\u016F chemick\u00E9ho slo\u017Een\u00ED a \u010Distoty, materi\u00E1lov\u00E9 struktury a mechanick\u00FDch vlastnost\u00ED nanotitanu pro aplikace v medic\u00EDn\u011B a bude moci modifikovat v\u00FDrobu stanoven\u00EDm optim\u00E1ln\u00ED varianty parametr\u016F \u2013 chemick\u00E9 slo\u017Een\u00ED, \u010Distota - mechanick\u00E9 vlastnosti." . "Pou\u017Eit\u00ED nanostrukturn\u00EDho titanu pro nitrokostn\u00ED implant\u00E1ty" . . "Titan, je v sou\u010Dasn\u00E9 dob\u011B nejpou\u017E\u00EDvan\u011Bj\u0161\u00EDm kovem na v\u00FDrobu pasivn\u00EDch implantabiln\u00EDch prost\u0159edk\u016F zdravotnick\u00E9 techniky jako jsou nap\u0159. nitrokostn\u00ED implant\u00E1ty. Pro oblasti medic\u00EDny vyu\u017E\u00EDvaj\u00EDc\u00ED implantabiln\u00ED kovov\u00E9 materi\u00E1ly se nab\u00EDz\u00ED k vyu\u017Eit\u00ED objemov\u00FD nanostrukturn\u00ED titan, jeho\u017E v\u00FDroba spo\u010D\u00EDv\u00E1 v tv\u00E1\u0159en\u00ED vstupn\u00EDho titanu technologi\u00ED SPD - t\u011B\u017Ekou plastickou deformac\u00ED, p\u0159i kter\u00E9 z\u016Fst\u00E1vaj\u00ED chemick\u00E9 vlastnosti stejn\u00E9, ale mechanick\u00E9 vlastnosti v\u00FDrazn\u011B lep\u0161\u00ED ve vztahu k pevnosti. Z v\u00FDsledk\u016F v\u00FDzkumu autor\u016F \u010Dl\u00E1nku z\u00EDsk\u00E1 v\u00FDrobce znalosti o biologick\u00E9m chov\u00E1n\u00ED materi\u00E1l\u016F podle parametr\u016F chemick\u00E9ho slo\u017Een\u00ED a \u010Distoty, materi\u00E1lov\u00E9 struktury a mechanick\u00FDch vlastnost\u00ED nanotitanu pro aplikace v medic\u00EDn\u011B a bude moci modifikovat v\u00FDrobu stanoven\u00EDm optim\u00E1ln\u00ED varianty parametr\u016F \u2013 chemick\u00E9 slo\u017Een\u00ED, \u010Distota - mechanick\u00E9 vlastnosti."@cs . "TANGER spol. s r.o." . "1. ro\u010Dn\u00EDk konference s mezin\u00E1rodn\u00ED \u00FA\u010Dast\u00ED, Nanocon 2009, CD verze" . . "Usage of nanostructured titanium for endosteal implants"@en . "Titanium, nanostructured titanium, medical implants, SPD, ECAP, Conform"@en . . "Kraus, Libor" . "334896" . . . "RIV/26316919:_____/09:#0000193!RIV10-MPO-26316919" . . "Pou\u017Eit\u00ED nanostrukturn\u00EDho titanu pro nitrokostn\u00ED implant\u00E1ty" . "Zemko, Michal" . "RIV/26316919:_____/09:#0000193" . . "Pou\u017Eit\u00ED nanostrukturn\u00EDho titanu pro nitrokostn\u00ED implant\u00E1ty"@cs . . "Titanium is currently the most frequently used metal for manufacturing passive implantable medical devices, such as endosteal implants. For those fields of medicine where implantable metallic materials are used, bulk nanostructured titanium is available. It is manufactured by SPD techniques (Severe Plastic Deformation). This forming process leaves the chemical properties of the initial material unchanged but markedly improves its final mechanical properties, in particular the strength. Outcomes of research described in this article will provide manufacturers with data on behaviour of materials in biological environment in relation to their chemical composition and purity and with information on the structure and mechanical properties of nanostructured titanium for medical applications. The manufacturer will thus be able to modify the production process by setting optimum parameter values for chemical composition, purity and mechanical properties."@en . . "Usage of nanostructured titanium for endosteal implants"@en . . . "978-80-87294-12-3" . . . . "2"^^ . "Ostrava, \u010Cesk\u00E1 republika" . "4"^^ . . "Ro\u017Enov pod Radho\u0161\u0165em, \u010Cesk\u00E1 republika" . . "P(FT-TA3/091)" . "8"^^ . . . "2009-01-01+01:00"^^ . "[25E1CF92AC75]" . . "Pou\u017Eit\u00ED nanostrukturn\u00EDho titanu pro nitrokostn\u00ED implant\u00E1ty"@cs . .