Engineering
Punch Diameter
100%
Adjustability
100%
Contact Pressure
85%
Internals
75%
Thickness Change
50%
Metal Forming
50%
Roundness
50%
Interface Pressure
50%
Strip Thickness
50%
Tensiles
50%
Mechanical Fatigue Test
50%
Welds
50%
Experimental Result
50%
Steel Grade
25%
Reduction Ratio
25%
Ironing Process
25%
Design Requirement
25%
Thickness Ratio
25%
Ductile Fracture
20%
Planar Anisotropy
12%
Tasks
12%
Forming Tool
12%
Deep Drawing
12%
Tensile Test
12%
Plastic Deformation
12%
Dimensional Analysis
12%
R-Value
12%
Failure Mechanism
10%
Bonded Interface
10%
Stress Concentration
10%
Static Strength
10%
Contact Temperature
10%
Material Science
Sheet Metal Forming
75%
Mechanical Strength
75%
Anisotropy
50%
Metal Forming Process
50%
Lubrication
50%
Spot Welding
50%
Cemented Carbide
50%
Thin Sheet
37%
Deep Drawing
25%
Materials Property
25%
Metal Forming
25%
Plastic Deformation
25%
Tensile Testing
25%
Ductile Fracture
25%
Tool Steel
25%
Stress Concentration
12%
Peel Testing
12%
Austenitic Stainless Steel
12%
Keyphrases
Critical nugget Size
50%
Punch Design
50%
Roundness Profile
50%
Punching
50%
Numerical Analysis
50%
Wall Thickness
16%
Retraction Force
16%
Tool Edge Radius
16%
Improved Design
16%
Low Contact Pressure
16%
Adjustability
16%
LS-DYNA
16%
Tool Wear
16%
Numerical Simulation
16%
Lubricant Use
16%
Forming Process
16%
Punch Radius
10%
Low Punch
8%
Wall Thickness Ratio
6%
