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DLC/TI thin films properties prepared by hybrid laser technologies
Mikšovský, Jan ; Jelínek, Miroslav ; Písařík, Petr ; Kocourek, Tomáš ; Remsa, J. ; Jurek, Karel
Layers of diamond-like carbon are usable in many fields of industry as well as in medicine. Many scientific groups have worked with different types of deposition techniques to prepare DLC layers with improved or unique properties. The DLC properties could be improved by various dopations. In this study, we focused on DLC layers doped by titanium, prepared by hybrid laser depositions. Two techniques were used: Dual pulse laser deposition (DualPLD) and pulse laser deposition in combination with magnetron sputtering (PLD/MS). Preliminary tests for morphology, wettability, adhesion, hardness, corrosion, friction and wearability were examined. DLC samples were prepared on Si(100) wafer and on Ti6Al4V alloy substrates with titanium concentration from pure up to 25 at.%. Friction of the prepared layers ranged from 0.09 to 0.18. The films exhibited very low wear for loads 1 N and 2 N.\n
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The pseudoelasticity and the shape memory effect in CoNiAl alloys
Kopeček, Jaromír ; Jarošová, Markéta ; Jurek, Karel ; Heczko, Oleg
The cobalt alloys (close to the CoNiAl stoichiometry) are the less known shape memory alloys. Such behavior is consequence of the martensitic transformation. The pseudoelasticity is caused by the stress-induced martensitic transformation above the equilibrium martensite start temperature from high temperature cubic phase (austenite) to lower symmetry phase(martensite). In CoNiAl the pseudoelastic behavior can be obtained by the high temperature annealing. In presented work the effect of the annealing temperature on both pseudoelastic behavior and microstructure was investigated.
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Nanokompozitní Ag-HA biokompatibilní vrstvy
Jelínek, Miroslav ; Weiserová, Marie ; Kocourek, Tomáš ; Jurek, Karel ; Strnad, J. ; Kudrna, P.
Příspěvek pojednává o přípravě KrF laserem a studiu dopovaných biokompatibilních materiálu se zaměřením na hydroxyapatit (HA). Je uveden přehled materiálů užívaných pro dopaci. Jsou uvedeny experimentální výsledky HA vrstev dopovaných stříbrem. Vlastnosti vrstev byly určovány pomocí profilometru, SEM, WDX, XRD a optické transmise. Obsah stříbra ve vrstvách HA se pohyboval od 0,06 do 13,7 at.%. Antibakteriální vlastnosti HA, stříbra a dopovaných vrstev HA stříbrem byly studovány “in vivo” pomocí buněk Escherichia coli.
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