"RIV/68407700:21460/13:00197535" . . "http://download.springer.com/static/pdf/337/art%253A10.1007%252Fs00339-012-7215-9.pdf?auth66=1353877520_bffd97e54161876907ae487bdad38cd5&ext=.pdf" . "5"^^ . "Luke\u0161, Jaroslav" . . "[A14026DE5BC4]" . "Influence of ion bombardment on growth and properties of PLD created DLC films"@en . "Influence of ion bombardment on growth and properties of PLD created DLC films"@en . "Kocourek, Tom\u00E1\u0161" . . . "5"^^ . . . "Applied Physics A: Materials Science and Processing" . "Pulsed laser deposition; Diamond like carbon; Mechanical properties"@en . "21460" . . . "Influence of ion bombardment on growth and properties of PLD created DLC films" . . "P\u00EDsa\u0159\u00EDk, Petr" . "Influence of ion bombardment on growth and properties of PLD created DLC films" . "P(LD12069), S, Z(AV0Z10100522)" . . "79811" . . . "DE - Spolkov\u00E1 republika N\u011Bmecko" . "10.1007/s00339-012-7215-9" . . . "Zemek, J." . "A hybrid PLD system with ion bombardment of films was developed. Growing DLC films were modified during the laser deposition (10 J\u2009cm-2) by argon ions with energy in the range from 40 eV to 210 eV and cathode current of 0.15 A and 0.5 A. The content of sp2 \u201Cgraphitic\u201D and sp3 \u201Cdiamond\u201D bonds was measured using XPS. Sp3 bonds changed from 60 % to 81 %. We found the highest sp3 content for energy of 40 eV. Hardness (and reduced Young\u2019s modulus) were determined by nanoindentation and reached 49 GPa (277 GPa). Film adhesion was studied using the scratch test and was up to 14 N for titanium substrates. Relations among deposition conditions and measured properties are presented."@en . "Jel\u00EDnek, Miroslav" . "A hybrid PLD system with ion bombardment of films was developed. Growing DLC films were modified during the laser deposition (10 J\u2009cm-2) by argon ions with energy in the range from 40 eV to 210 eV and cathode current of 0.15 A and 0.5 A. The content of sp2 \u201Cgraphitic\u201D and sp3 \u201Cdiamond\u201D bonds was measured using XPS. Sp3 bonds changed from 60 % to 81 %. We found the highest sp3 content for energy of 40 eV. Hardness (and reduced Young\u2019s modulus) were determined by nanoindentation and reached 49 GPa (277 GPa). Film adhesion was studied using the scratch test and was up to 14 N for titanium substrates. Relations among deposition conditions and measured properties are presented." . . "000315159700032" . . "0947-8396" . . "110" . . "3"^^ . . "RIV/68407700:21460/13:00197535!RIV14-MSM-21460___" . "4" . . .