Engineering
Models
75%
Steel
70%
Prediction
50%
Stress State
42%
Microstructure
37%
High Strength
35%
Formability
33%
Anisotropic
33%
Dual Phase Steel
33%
Fracture
28%
Temperature
20%
Plasticity Model
19%
Hardening
17%
Strength Steel
17%
Forming
17%
Forming Limit
17%
Microstructural Feature
16%
Surfaces
16%
Tensile Test
16%
Simulation
15%
Roughness
14%
Mechanic Model
14%
Advanced High Strength Steel
14%
Damage Model
14%
Sheet Metal
13%
Damage Mechanics
13%
Failure (Mechanical)
13%
Localisation
12%
Applications
12%
Fracture Property
11%
Residual Stress
11%
Forming Limit Curve
11%
Mechanical Properties
10%
Finite Element Simulation
10%
Hole Expansion
10%
Damage Initiation
10%
Micromechanical Modeling
9%
Finite Element Modeling
9%
Deformation
9%
Plastic Deformation
9%
Mechanisms
9%
Experiments
9%
Design
8%
Damage Mechanic Approach
8%
Ductile Fracture
8%
Fatigue Life
8%
Hardening Behavior
8%
Characteristics
8%
Structural Steel
8%
Metal Forming
8%
Material Science
Spring Steel
100%
Material
54%
Microstructure
51%
Plasticity
49%
Dual Phase Steel
39%
Mechanical Strength
39%
Strain
38%
Temperature
31%
Formability
30%
Inclusion
27%
High Strength Steel
25%
Ductile Fracture
22%
Mechanical Property
20%
Fracture Behavior
19%
Plastics
17%
Steel Sheet
16%
Hardening
16%
Anisotropy
16%
Cleavage Fracture
15%
Alloy
13%
Surface Roughness
13%
Strain Rate
12%
Finite Element Methods
12%
Bending
12%
Defect
11%
Laser
11%
Plastic Deformation
11%
Fatigue of Materials
11%
Metal
9%
Crystal Plasticity
9%
Crack
9%
Surface
9%
Texture
9%
Austenite
8%
Work Hardening
8%
Plastic Anisotropy
8%
Microcracks
8%
Expansion
8%
Dislocation
7%
Sheet Metal Forming
7%
Pipeline
7%
Martensite
7%
Lithium Ion Battery
6%
Damage Evolution
6%
Density
6%
Grain Size
6%
Fracture Toughness
6%
Sheet Metal
5%
Heat Treatment
5%
Damage Mechanics
5%
Physics
Steel
95%
Fracture
33%
High Strength
28%
Failure
23%
Simulation
19%
Strain Rate
18%
Temperature
18%
Microstructure
18%
Crystal Plasticity
18%
Fracture Behavior
15%
Position (Location)
13%
Damage Mechanics
13%
Initiation
11%
Anisotropy
11%
Alloy
10%
Independent Variables
10%
Strain
10%
Surface Roughness
8%
Deformation
8%
Statics
8%
Plastic Deformation
7%
Extended Finite Element Method
7%
Crack Initiation
7%
Bending
7%
Forming Technique
7%
Shears
6%
Strength of Materials
6%
Cracking (Fracture)
6%
High Speed
6%
Cracks
6%
Assessments
5%
Damage Evolution
5%
Defects
5%
Fatigue Behavior
5%
Evaluation
5%
Aluminium
5%