Engineering
Solid Oxide Fuel Cell
100%
Finite Element Analysis
44%
Welds
22%
Fuel Cell Stack
22%
Interconnects
21%
Failure Mode
21%
Induced Plasticity
17%
Oxide Scale
16%
Failure Probability
15%
Damage Mechanics
13%
Porosity
13%
Probabilistic Fracture Mechanics
12%
Automotives
12%
Mechanic Model
11%
Experimental Result
11%
Creep
9%
Strain Rate
9%
Deformation Behavior
9%
Temperature Distribution
9%
Operating Temperature
9%
Term Performance
8%
Structural Integrity
8%
Good Agreement
8%
Two-Point Correlation Function
8%
Advanced High Strength Steel
8%
Numerical Modeling
8%
Crack Propagation
8%
Loading Condition
8%
Fatigue Crack Growth
8%
Stainless Steel
7%
Superplastic Deformation
7%
Methane
7%
Martensite
7%
Resistance Spot
7%
Finite Element Modeling
7%
Auxiliary Power Unit
7%
Dual Phase Steel
7%
Fatigue Life
7%
Self-Piercing Rivet
7%
Forming Limit Diagram
7%
Fusion Zone
7%
Short Fiber
7%
Joints (Structural Components)
7%
Energy Absorption
6%
Dislocation Dynamics
6%
Anisotropic
6%
Yield Point
6%
Constitutive Model
6%
Thermal Stress
6%
Solid Oxide Fuel Cell Systems
6%
Material Science
Oxide Compound
76%
Finite Element Method
35%
Glass Ceramics
24%
Cathode
18%
Anode
16%
Spot Welding
15%
Composite Material
13%
Volume Fraction
11%
Aluminum
11%
High Strength Steels
10%
Density
10%
Magnesium Alloy
10%
Creep
10%
TRIP Steel
9%
Grain Boundary
9%
Continuum Mechanics
9%
Dual Phase Steel
9%
Strain Rate
8%
Creep Property
8%
Martensite
8%
Homogenization
8%
Fracture Toughness
7%
Grain Size
7%
Hydroforming
7%
Thermal Stress
7%
Dislocation Dynamics
6%
Welding
6%
Strontium
6%
Aluminum Alloy
6%
Surface (Surface Science)
6%
Scanning Electron Microscopy
6%
Materials Design
6%
Nucleation
6%
Yield Stress
6%
Anisotropy
5%
Polycrystalline Material
5%
X-Ray Diffraction
5%
Thermal Expansion
5%
Void Growth
5%
Titanium Dioxide
5%
Elastic Property
5%
Finite Element Modeling
5%
Damage Mechanics
5%
Materials Property
5%