Machinability of Bio-composites: Challenges and Prospects

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%