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A novel approach to boriding of TZM by spark plasma sintering method
Baris Yavas,
Gultekin Goller
*
*
Corresponding author for this work
Department of Metallurgical and Materials Engineering
Istanbul Technical University
Research output
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Contribution to journal
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Article
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peer-review
16
Citations (Scopus)
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Keyphrases
Boride Layer
100%
Borides
100%
Holding Time
100%
Spark Plasma Sintering Technique
100%
Molybdenum Boride
100%
Boride Layer Thickness
50%
Mechanical Properties
50%
Microstructure
50%
Time Pressure
50%
Boriding Process
50%
Base Metals
50%
Low Wear
50%
Wear Resistance
50%
Surface Hardness
50%
Oxidation Resistance
50%
Sintering Process
50%
Mass Loss
50%
Oxidation Test
50%
Oxidation Behavior
50%
Powder Form
50%
Premixed
50%
Molybdenum Effect
50%
Rapid Oxidation
50%
Molybdenum-based Alloys
50%
Elevated-temperature Wear
50%
Protective Layer
50%
Hardness Behavior
50%
Density Behavior
50%
Hardness Values
50%
Engineering
Boriding
100%
Spark Plasma Sintering
100%
Holding Time
66%
Layer Thickness
33%
Hardness Value
33%
Process Parameter
33%
Wear Resistance
33%
Constant Temperature
33%
Elevated Temperature
33%
Mass Loss
33%
Powder Form
33%
Protective Layer
33%
Base Metal
33%
Oxidation Resistance
33%
Sintering
33%
Material Science
Boride
100%
Oxidation Reaction
100%
Spark Plasma Sintering
100%
Molybdenum
100%
Density
33%
Wear Resistance
33%
Oxidation Resistance
33%
Sintering
33%
Chemical Engineering
Borides
100%