Engineering
Steel
92%
Strain Hardening
41%
Microstructure
38%
Martensitic Stainless Steel
36%
Strain Rate
30%
Crashworthiness
21%
Hardening Behavior
21%
Deformation
21%
Stress-Strain Curve
21%
High Strength
19%
High Strength Steel
19%
Advanced High Strength Steel
18%
Local Strain
18%
Bridging
18%
Models
18%
Alloy
17%
Bainite Transformation
15%
Mechanical Properties
15%
Strength Steel
15%
Deformation Behavior
13%
High Strain Rate
13%
Flow Stress
13%
Automotives
12%
Development
12%
Requirements
12%
Plastic Deformation
11%
Digital Image Correlation
11%
Kinetic
11%
Evaluation
11%
Japan
11%
Precipitation
11%
Applications
10%
Added Steel
10%
Vehicle Safety
9%
Start Temperature
9%
Driving Force
9%
Prediction
9%
Press Formability
9%
Bainite
9%
Characteristic Feature
9%
Impact Energy
9%
Strain Rate Sensitivity
9%
Retained Austenite
9%
Test Piece
9%
Bends
9%
Reduction
9%
Microstructure Development
9%
Recrystallization
9%
Embrittlement
9%
Martensite
9%
Material Science
Spring Steel
100%
Austenite
57%
Bainite
51%
Ferrite
43%
Martensitic Stainless Steel
42%
Steel Sheet
39%
Microstructure
38%
Temperature
29%
Work Hardening
27%
Nucleation
26%
High Strength Steel
25%
Coarsening
24%
Manganese
18%
Mechanical Strength
17%
Strain
16%
Material
15%
Mechanical Property
13%
Carbide
13%
Grain Boundary
12%
Aging of Materials
11%
Volume Fraction
10%
Plastics
9%
Crack Propagation
9%
Toughness
9%
Dislocation
9%
Nitride Compound
9%
Finite Element Modeling
9%
Inclusion
9%
Grain Boundary
9%
Martensite
8%
Annealing
7%
Low Carbon Steel
7%
Alloying
6%
Hydrogen Embrittlement
6%
Alloy
5%
Vacancy
5%
Earth and Planetary Sciences
Bainite
61%
Ferrite
43%
Austenite
35%
Carbon
27%
Steel
24%
High Strength Steels
23%
Cementite
18%
Datum
14%
Microstructure
14%
Enrichment
13%
Temperature
10%
Model
10%
Martensite
9%
Car
8%
Value
7%
Strain
7%
Coefficient
7%
Annealing
7%
Block
6%
Time
6%
Crashworthiness
5%
Requirement
5%
Industry
5%
Progress
5%
Region
5%
