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Machinability of Bio-composites: Challenges and Prospects
S. O. Ismail
, H. N. Dhakal
Department of Engineering and Technology
School of Physics, Engineering & Computer Science
Materials and Structures
Centre for Engineering Research
Centre for Climate Change Research (C3R)
Research output
:
Chapter in Book/Report/Conference proceeding
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Conference contribution
34
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Keyphrases
Drilling Technique
100%
Machinability
100%
Conventional Drilling
100%
Ultrasonic-assisted Drilling
71%
Abrasive Water Jet
57%
Drilling Damage
57%
Polycaprolactone
42%
Water Jet Drilling
42%
Damage Response
42%
Vinyl Ester
28%
Biological Fiber
28%
Fiber-reinforced Polymer Composites
28%
Natural Fibre Reinforced Polymer Composites
28%
Abrasive
28%
Delamination
28%
Reasonable Value
14%
Structural Materials
14%
Acoustic Resistance
14%
Parameter Condition
14%
Renewability
14%
Fiber Reinforced Polymer
14%
Delamination Damage
14%
Twist Drill
14%
C-fiber
14%
Flax
14%
Bioresin
14%
Low Melting Temperature
14%
Bioproducts
14%
Composite Laminates
14%
Comparative Experimental Study
14%
High Speed Steel
14%
Minimum Surface Roughness
14%
Hybrid Carbon Materials
14%
Corrosion Resistance
14%
Surface Roughness
14%
Aerospace
14%
Material Removal Mechanism
14%
Garnet
14%
Zone Temperature
14%
Vibro-impact
14%
Drilling Parameters
14%
Thrust Force
14%
Bearing Materials
14%
Manufacturing Industry
14%
Engineering Application
14%
Abrasive Particles
14%
Polymer Samples
14%
Hemp
14%
Process Zone
14%
Low-thrust
14%
Hole Diameter
14%
Flax Fiber
14%
Drill Hole
14%
Polycaprolactone Matrices
14%
Manufacturing Process
14%
Drilling Process
14%
Hole Quality
14%
Feed Rate
14%
Biodegradability
14%
Wear Resistance
14%
Entanglement
14%
Micromachining
14%
Manufacturing Methods
14%
Inherent Properties
14%
Load-bearing
14%
Engineering
Biocomposite
100%
Drilling Technique
100%
Induced Damage
57%
Melting Point
42%
Fibre-Reinforced Polymer Composite
42%
Delamination
28%
Natural Fibre
28%
Polymer Sample
14%
Process Parameter
14%
Engineering Application
14%
High-Speed Steel
14%
Low Feed Rate
14%
Melting Temperature
14%
Micro Machining
14%
Drilling Parameter
14%
Thrust Force
14%
Composite Material
14%
Automotives
14%
Abrasive Particle
14%
Anisotropic
14%
Material Removal Mechanism
14%
Wear Resistance
14%
Entanglement
14%
Process Zone
14%
Structural Materials
14%
Drill Hole
14%
Delamination Damage
14%
Hole Diameter
14%
Flax Fiber
14%
Material Science
Machinability
100%
Reinforced Plastic
100%
Delamination
75%
Polymer Composite
75%
Natural Fibre
50%
Surface Roughness
50%
Micromachining
25%
High Speed Steel
25%
Corrosion
25%
Garnet
25%
Composite Laminate
25%
Drilling
25%
Wear Resistance
25%
Composite Material
25%
Building Material
25%
Flax
25%