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Ion plating as a deposition method for tribology coatings: Dissertation
Heikki Sundquist
VTT Technical Research Centre of Finland
Research output
:
Thesis
›
Dissertation
›
Collection of Articles
Overview
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Dive into the research topics of 'Ion plating as a deposition method for tribology coatings: Dissertation'. Together they form a unique fingerprint.
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Keyphrases
Tribology
100%
Ion Plating
100%
Deposition Methods
100%
Tribological Properties
40%
Titanium Nitride Coating
40%
Triode
40%
Beneficial Effects
20%
Ion Bombardment
20%
Wear Protection
20%
Structure-property Relationships
20%
Titanium Nitride
20%
Evaporation Rate
20%
Titanium Aluminum Alloy
20%
Hard Coating
20%
Soft Substrate
20%
Aluminum Bronze
20%
Metalworking Processes
20%
Aluminum-copper Alloy
20%
Tribological Coatings
20%
Industrial Metals
20%
Plating Process
20%
Evaporation Method
20%
Aluminum Alloy Coating
20%
Resistive Evaporation
20%
Feeding Mechanism
20%
Abrasive Wear Mechanism
20%
INIS
coatings
100%
deposition
100%
ions
100%
tribology
100%
plating
100%
evaporation
33%
titanium nitrides
33%
wear
22%
aluminium
11%
substrates
11%
industry
11%
growth
11%
metals
11%
feeding
11%
protection
11%
copper
11%
laboratories
11%
ion beams
11%
aluminium alloys
11%
abrasives
11%
bronze
11%
Engineering
Tribology
100%
Deposition Method
100%
Nitride
100%
Applicability
66%
Beneficial Effect
33%
Experimental Work
33%
Ion Implantation
33%
Resistive
33%
Metal Working
33%
Plating Process
33%
Abrasive Wear
33%
Evaporation Rate
33%
Material Science
Plating
100%
Tribology
100%
Nitride Compound
60%
Titanium
60%
Hard Coating
20%
Aluminum Bronze
20%
Aluminum Copper Alloys
20%
Metalworking
20%
Ion Bombardment
20%
Chemical Engineering
Titanium Nitride
100%