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Diamond as a wear-resistant coating for cutting tools, part 2
Riccardo Polini
*
, Enrico Traversa
*
Corresponding author for this work
Research output
:
Contribution to journal
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Article
›
peer-review
1
Scopus citations
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Keyphrases
Diamond
100%
Diamond Coating
100%
Wear-resistant Coatings
100%
Chemical Vapor Deposition Diamond
100%
Cutting Tool
100%
Diamond Film
40%
WC-Co Tool
40%
Adhesion
20%
Surface Treatment
20%
Mechanical Stress
20%
Chemical Vapor Deposition
20%
Thermal Stress
20%
Substrate Surface
20%
Failure Mechanism
20%
Substrate Effect
20%
Metal Matrix Composites
20%
WC-Co
20%
Tungsten Carbide WC
20%
Substrate Pretreatment
20%
Cemented Tungsten Carbide
20%
Interface Toughness
20%
Substrate Microstructure
20%
Cutting Performance
20%
Composite Manufacturing
20%
Literature Analysis
20%
Film Adhesion
20%
Machining Industry
20%
Premature Failure
20%
Tool Inserts
20%
Wear Life
20%
Hard Metal Tools
20%
Film Synthesis
20%
Film Delamination
20%
Material Science
Cutting Tool
100%
Wear-Resistant Coating
100%
Diamond
100%
Chemical Vapor Deposition
85%
Machining
42%
Diamond Films
28%
Metal Matrix Composite
14%
Tungsten
14%
Carbide
14%
Thermal Stress
14%
Mechanical Stress
14%
Film
14%
Delamination
14%
Engineering
Resistant Coating
100%
Diamond
100%
Vapor Deposition
75%
Chemical Vapor Deposition
75%
Pretreatment
25%
Microstructure
12%
Main Issue
12%
Substrate Surface
12%
Combined Effect
12%
Mechanical Stress
12%
Diamond Coating
12%
Machining Industry
12%
Premature Failure
12%
Metal Matrix Composite
12%
Thermal Stress
12%
Delamination
12%
Failure Mechanism
12%
Cutting Performance
12%