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The susceptibility of wood-cutting tools to corrosive wear
Gandi D. Mohan, Barney E. Klamecki
Mechanical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
19
Scopus citations
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Dive into the research topics of 'The susceptibility of wood-cutting tools to corrosive wear'. Together they form a unique fingerprint.
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Keyphrases
Cutting Tool
100%
Wood Cutting
100%
Corrosive Wear
100%
Electrochemical Action
100%
Wood
66%
Binder Material
66%
Corrosion
33%
Water-soluble
33%
Wear Mechanism
33%
Relative Magnitude
33%
Electrical Potential
33%
Tool Life
33%
Cemented Carbide Tool
33%
Electrochemical Effect
33%
Mechanical Effect
33%
Life Data
33%
Wetwood
33%
Corrosion Susceptibility
33%
Tool Wear Mechanism
33%
Carbide Size
33%
Analyzing Tool
33%
Engineering
Major Part
100%
Simple Model
100%
Relative Magnitude
100%
Electrical Potential
100%
Electrochemical Effect
100%
Corrosive Wear
100%
Material Science
Cutting Tool
100%
Corrosive Wear
100%
Corrosion
66%
Machining
33%
Grain Size
33%
Cemented Carbide
33%
Carbide
33%