Keyphrases
Abrasive Flow Rate
25%
Abrasive Water Jet
100%
Abrasive Water Jet Cutting
25%
Abrasive Water Jet Machining
75%
Conventional Machining
25%
Cutting Process
50%
Cutting Temperature
25%
Dual Process
25%
Dual Processing
100%
Embedded Particles
50%
Fatigue Life
25%
Feed Speed
25%
Four-point Bending Fatigue Test
25%
Functional Performance
50%
Garnet
25%
High Efficiency
25%
High Material Removal Rate
25%
Inclination Angle
25%
Kinetic Energy Density
25%
Machine Tool
25%
Machined Surface
25%
Machining Method
100%
Material Removal
25%
Mathematical Model
25%
Mechanical Performance
25%
Microstructural
25%
Modification Parameters
25%
Nickel-based Superalloy
100%
Nozzle
25%
Process Modification
25%
Secondary Processes
25%
Sharp Cutting Edge
25%
Single Abrasive
25%
Single Machine
25%
Smooth Surface
25%
Speed-flow Relationships
25%
Stainless Steel
25%
Standoff Distance
25%
Steel Ball
25%
Strengthening Effect
25%
Superficial Layer
25%
Surface Damage
25%
Surface Integrity
50%
Surface Layer
25%
Surface Modification
100%
Surface Modification Process
25%
Surface Strengthening
50%
Water Jet
25%
Water Jet Machining
25%
Working Surface
75%
Engineering
Conventional Machining
50%
Cutting Edge
50%
Cutting Method
50%
Cutting Temperature
50%
Damage Surface
50%
Fatigue Life
50%
Feed Speed
50%
Flow Rate
50%
Functional Performance
100%
Inclination Angle
50%
Kinetic Energy Density
50%
Machine Tool
50%
Machined Surface
50%
Machined Workpiece Surface
50%
Material Removal
50%
Material Removal Rate
50%
Mathematical Model
50%
Mechanical Fatigue Test
50%
Mechanical Performance
50%
Point Bending
50%
Secondary Process
50%
Smooth Surface
50%
Stainless Steel
50%
Steel Ball
50%
Strengthening Effect
50%
Surface Integrity
100%
Material Science
Abrasive Waterjet Machining
75%
Energy Density
25%
Fatigue of Materials
25%
Functional Material
25%
Garnet
25%
Machine Tool
25%
Machining
100%
Nickel-Based Superalloys
100%
Stainless Steel
25%
Surface Damage
25%
Surface Modification
25%
Surface Treatment
100%