Material Science
Advanced Material
16%
Anisotropy
11%
Austenitic Stainless Steel
11%
Chip Formation
5%
Computational Fluid Dynamics
5%
Crystal Plasticity
49%
Crystalline Material
8%
Density
100%
Dislocation Dynamics
90%
Dislocation Structure
11%
Electrical Conductivity
22%
Finite Element Method
37%
Finite Element Modeling
11%
Hydrodynamics
5%
Manganese
11%
Materials Property
6%
Morphology
11%
Phase Field Model
17%
Physical Property
5%
Plastic Deformation
12%
Plastic Flow
16%
Plasticity
11%
Plasticity Theory
33%
Platelet
22%
Rheology
11%
Screw Dislocation
5%
Shear Flow
7%
Shot Peening
11%
Single Crystal
23%
Small Deformation
5%
Stacking Fault
11%
Stress Field
11%
Thin Films
16%
TWIP Steel
22%
Void Growth
22%
Volume Fraction
22%
Work Hardening
13%
Yield Stress
5%
Engineering
Applicability
11%
Centered Cubic Metal
11%
Clinical Outcome
11%
Cold Rolling
11%
Computational Cost
11%
Computational Efficiency
11%
Computational Time
11%
Continuum Framework
11%
Correlation Information
11%
Cross Slip
11%
Deformation Plasticity
11%
Deformation Resistance
11%
Dislocation Density
16%
Dislocation Dynamics
45%
Dislocation Interaction
11%
Dislocation Pile
11%
Dislocation Structure
11%
Electrical Conductivity
11%
Finite Deformation
11%
Finite Element Simulation
11%
Fluid-Structure Interaction
11%
Frank Read Source
11%
Implicit Method
11%
Induced Plasticity
11%
Inverse Square
11%
Irradiated Material
11%
Local Method
11%
Material Point
11%
Model Parameter
11%
Model Reduction
20%
Monocrystal
11%
Neutral Plane
11%
Numerical Implementation
33%
Patient Specific
17%
Phenomenological Model
11%
Physical Boundary Condition
11%
Plasticity Effect
15%
Plasticity Theory
11%
Polycrystal
11%
Problem Solver
11%
Process Result
11%
Reduced Order Model
11%
Relaxation Mode
11%
Segment Length
11%
Shot Peening
11%
Slip System
11%
Spatial Correlation
11%
Swaging
11%
System Curve
11%
TWIP Steel
22%