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Machinability of BMG
Mustafa Bakkal
*
*
Corresponding author for this work
Department of Mechanical Engineering
Research output
:
Contribution to journal
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Article
›
peer-review
3
Citations (Scopus)
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Keyphrases
Bulk Metallic Glass
100%
Machinability
100%
High Temperature
28%
Crystallization
28%
Viscous Flow
28%
Surface Roughness
14%
Low Thermal Conductivity
14%
Removal Methods
14%
Strain Rate
14%
Cutting Speed
14%
Flow Control
14%
High Strain Rate
14%
Intermittent Cutting
14%
Chip Morphology
14%
Continuous Machining
14%
Lathe Turning
14%
High-speed Cutting
14%
WC-Co Cutting Tools
14%
Chip Removal
14%
Exothermic Chemical Reaction
14%
Cutting Process
14%
Light Emission
14%
Glass Machining
14%
Precision Machining
14%
Evaluation Test
14%
Temperature Problem
14%
Burr Formation
14%
Grinding Test
14%
Machinability Assessment
14%
Chip Temperature
14%
High Temperature Gradient
14%
Machining Method
14%
Thermal Softening
14%
Top Burrs
14%
Engineering
Bulk Metallic Glass
100%
Grinding (Machining)
28%
Cutting Speed
28%
Viscous Flow
28%
Test Result
14%
Process Parameter
14%
Low Thermal Conductivity
14%
Conventional Material
14%
Test Method
14%
Removal Process
14%
Temperature Problem
14%
Thermal Softening
14%
Burrs
14%
High Temperature Gradient
14%
Burr Formation
14%
Chip Removal
14%
Strain Rate
14%
Light Emission
14%
Material Science
Bulk Metallic Glass
100%
Machinability
100%
Machining
57%
Viscous Flow
28%
Oxidation Reaction
14%
Surface Roughness
14%
Thermal Conductivity
14%
Strain Rate
14%
Cutting Tool
14%