Understanding the influence of tool coating and cutting environment on the machinability of Nimonic C-263

Keyphrases

• Nimonic 263 100%
• Cutting Temperature 100%
• Cutting Environment 100%
• Physical Vapor Deposition 100%
• Tool Coating 100%
• Machinability 100%
• Chemical Vapor Deposition 75%
• Surface Roughness 50%
• Cutting Force 50%
• Uncoated Carbide 50%
• Chip Reduction Coefficient 50%
• Dry Machining 50%
• Performance Improvement 25%
• Distinctive Features 25%
• Thermal Conductivity 25%
• Flooding Condition 25%
• Tool Wear 25%
• Machining Conditions 25%
• Flank Wear 25%
• Machining Process 25%
• Promoting Sustainability 25%
• Minimum Quantity Lubrication 25%
• Work Hardening 25%
• TiAlN 25%
• Multilayer Coatings 25%
• Key Performance Factors 25%
• Carbide Inserts 25%
• Coated Tools 25%
• Lubrication Condition 25%
• Flood Coolant 25%
• Reduction Tool 25%

Engineering

• Physical Vapor Deposition 100%
• Cutting Temperature 100%
• Chemical Vapor Deposition 75%
• Vapor Deposition 75%
• Cutting Force 50%
• Dry Machining 50%
• Thermal Conductivity 25%
• Performance Factor 25%
• Flank Wear 25%
• Coated Tool 25%
• Minimum Quantity Lubrication 25%
• Multilayer Coating 25%
• Flood Coolant 25%
• Strain Hardening 25%

Material Science

• Coolant 25%