|
Volumn 204, Issue 18-19, 2010, Pages 2913-2918
|
CoCrMo alloy treated by floating potential plasma assisted nitriding and plasma based ion implantation: Influence of the hydrogen content and of the ion energy on the nitrogen incorporation
|
Author keywords
Cobalt chromium molybdenum alloy; Expanded austenite structure; Plasma based ion implantation; R.F. plasma nitriding
|
Indexed keywords
COBALT CHROMIUM MOLYBDENUM ALLOYS;
COCRMO ALLOY;
ENHANCED SURFACE;
EXPANDED AUSTENITE;
FLOATING POTENTIALS;
HIGH VOLTAGE;
HYDROGEN CONTENTS;
IMPLANTED NITROGEN;
ION ENERGIES;
NITRIDE LAYERS;
NITRIDED LAYER;
NITRIDING EFFICIENCY;
NITROGEN COMPOSITION;
NITROGEN INCORPORATION;
PASSIVE OXIDES;
PLASMA ACTIVATION;
PLASMA NITRIDING;
PLASMA-ASSISTED NITRIDING;
PLASMA-BASED ION IMPLANTATION;
RADIO FREQUENCY PLASMA;
SUBSTRATE INTERFACE;
WORKING PRESSURES;
ALLOYS;
AUSTENITE;
CHROMIUM;
COBALT;
HYDROGEN;
ION IMPLANTATION;
MOLYBDENUM;
MOLYBDENUM ALLOYS;
NITRIDES;
NITRIDING;
NITROGEN;
PLASMA APPLICATIONS;
STAINLESS STEEL;
WEAR RESISTANCE;
NITROGEN PLASMA;
|
EID: 77953359920
PISSN: 02578972
EISSN: None
Source Type: Journal
DOI: 10.1016/j.surfcoat.2010.01.050 Document Type: Article |
Times cited : (24)
|
References (25)
|