Engineering
Martensite
86%
Metal Forming
54%
Induced Transformation
40%
Stainless Steel
36%
Austenitic Stainless Steel
35%
Austenite
32%
Constitutive Model
30%
Material Behavior
29%
Martensite Transformation
27%
Stress State
26%
Strain Hardening
23%
Residual Stress
22%
Heat Treatment
22%
Multistage
20%
Strain Rate
20%
Induced Martensitic Transformation
18%
Finite Element Method
18%
Plastic Deformation
16%
Material Model
16%
Shape Change
13%
Internal Stress
13%
Finite Element Calculation
13%
Constitutive Equation
12%
Good Corrosion Resistance
12%
Finite Element Modeling
11%
Isothermal
10%
Optimization Method
9%
Material Description
9%
Situ Investigation
9%
Polycrystal
9%
Ray Diffraction
9%
Experimental Determination
9%
Gibbs Free Energy
9%
Driving Force
9%
Product Manufacturing
9%
Constitutive Modeling
9%
Internals
9%
Formability
9%
Cold Forming
7%
Lookup Table
7%
Stress-Strain Relations
7%
Test Specimen
6%
Material Data
6%
Room Temperature
6%
Face-Centered Cubic
6%
Body-Centered Cubic
6%
Strain Path
6%
Magnetic Sensor
6%
Material Science
Martensite
100%
Metal Forming
49%
Austenitic Stainless Steels
35%
Stainless Steel
33%
Finite Element Method
29%
Work Hardening
27%
Austenite
27%
Metal Forming Process
26%
Corrosion Resistance
25%
Residual Stress
24%
Heat Treatment
20%
Finite Element Modeling
18%
Mechanical Strength
17%
Plastic Deformation
16%
Strain Rate
15%
Creep
15%
Polycrystal
9%
Deep Drawing
9%
Alloy Steel
9%
Thermal Expansion
9%
Anisotropy
9%
Steel Sheet
9%
Chromium
7%
Keyphrases
Metastable Stainless Steel
9%
Strain-induced Martensitic Transformation
9%
Material Description
9%
Multi-stage Forming
9%
FEM Simulation
9%
Martensitic Transformation Kinetics
9%
FE Calculations
9%
Inverse Optimization
9%
Product Shape
9%
Microalloying
9%
Austenite-to-martensite Phase Transformation
9%
Product Accuracy
6%
AISI 420
6%
Cold Forming
6%