Engineering
Nitride
70%
Flexure
50%
Creep
41%
Failure Stress
32%
Tensile Stress σ
32%
Tensiles
31%
Strength Distribution
23%
Fracture Strength
21%
Indentation
20%
Aluminum Oxide
20%
Test Specimen
19%
Effective Area
19%
Weibull Modulus
18%
Specimen Geometry
18%
Interconnects
18%
Elevated Temperature
17%
Limiting Strength
16%
Modulus of Elasticity
16%
Stress Relaxation
16%
Test Method
14%
Diesel Particulate Filter
14%
Failure Probability
13%
Cyclic Loading
13%
Thermoelectricity
13%
Crack Initiation
13%
Lead Zirconate
13%
Titanate
13%
Porosity
12%
Diesel Engine
12%
Pressed Silicon Nitride
12%
Yield Point
12%
Electric Field
11%
Creep Strain
11%
Diesel Exhaust
11%
Weibull Strength
10%
Thermal Conductivity
10%
Stress Exponent
10%
Ultimate Tensile Strength
10%
Slow Crack Growth
10%
Creep Rate
10%
Room Temperature
9%
Ring Crack
9%
Residual Stress
8%
Silicon Dioxide
8%
Finite Element Analysis
8%
Life Prediction
8%
Gas Turbine Engine
8%
Rolling Contact
8%
Mm Diameter
8%
Fast Fracture
8%
Material Science
Silicon Nitride
100%
Creep
54%
Surface (Surface Science)
54%
Indentation
37%
Silicon Carbide
30%
Fracture Toughness
29%
Ultimate Tensile Strength
28%
Silver
26%
Aluminum Oxide
26%
Thermoelectrics
20%
Composite Material
19%
Machining
18%
Crack Growth
16%
Thermal Conductivity
16%
Stress Relaxation
16%
Yield Stress
16%
Sintering
14%
Oxidation Reaction
13%
Elastic Moduli
13%
Crack Initiation
12%
Ceramic Composite
12%
Phase Composition
12%
Finite Element Method
12%
Borosilicate Glass
12%
Thermal Expansion
12%
Brittleness
11%
Titanium Aluminide
10%
Ceramic Matrix Composites
10%
Elastic Property
10%
Scanning Electron Microscopy
10%
Silicon
10%
Density
9%
Lead Zirconate Titanate
9%
Strength of Materials
9%
Silicate
9%
Diamond
8%
Zirconia
8%
Fractography
8%
Grain Size
8%
Rolling Contact
8%
Thermoelectric Materials
7%
Weibull Distribution
7%
Crack Propagation
7%
Interface Property
7%
Interface (Material)
7%
Rolling Contact Fatigue
7%
Silicate Glass
6%
Piezoelectricity
6%
Silicon Dioxide
6%
Ceramic Armor
6%