Engineering & Materials Science
Stress intensity factors
100%
Cracks
84%
Energy release rate
61%
Delamination
52%
Fracture toughness
42%
Composite materials
40%
Laminates
39%
Fracture mechanics
26%
Finite element method
24%
Cantilever beams
21%
Crack tips
20%
Crack closure
20%
Extrapolation
18%
Fatigue of materials
17%
Crack propagation
15%
Fibers
14%
Testing
13%
Piezoelectric materials
12%
Carbon fibers
10%
Piezoelectric ceramics
10%
Geometry
9%
Fracture testing
9%
Plastics
9%
Elastic moduli
8%
Elastic constants
7%
Stiffness
6%
Single crystals
6%
Residual stresses
6%
Toughening
6%
Displacement control
6%
Curing
6%
Silicon rubber
6%
Polymethyl methacrylates
6%
Mechanical properties
6%
Polymers
6%
Pultrusion
6%
Bone
6%
Thermal load
6%
Fiber reinforced materials
5%
Boundary conditions
5%
Derivatives
5%
Silicone rubber
5%
Electric fields
5%
Glass
5%
Mathematics
Stress Intensity Factor
54%
Interface Crack
44%
Crack
44%
Energy Release Rate
42%
Delamination
35%
Fracture Toughness
35%
Mixed Mode
25%
Composite Laminates
23%
Bimaterial
21%
Crack Closure
16%
Fracture Mechanics
16%
J-integral
14%
Crack Tip
13%
Laminates
12%
Angle
12%
Finite Element
10%
Composite
10%
Testing
10%
Notch
9%
Elastic Material
9%
Cantilever Beam
9%
Three-dimensional
9%
Stiffness
8%
Propagation
8%
Epoxy
8%
Crack Propagation
8%
Curing
7%
Stress Field
7%
Finite Element Method
7%
Weight Function
7%
Strip
7%
Fatigue
6%
Carbon Fiber
6%
Curve
6%
Transversely Isotropic
6%
Failure Criterion
6%
Standards
5%
Square root
5%
Large Deformation
5%
Chemistry
Fracture Toughness
35%
Delamination
30%
Displacement
23%
Cantilever Beam
21%
Fracture Mechanics
17%
Composite Material
17%
Energy
14%
Carbon Fiber
10%
Residual Stress
10%
Reinforced Plastic
10%
Crack Propagation
8%
Fiber
7%
Strain
7%
Fiber-Reinforced Composite
6%
Lagrangian
6%
Shear
6%
Tension
6%
Metal Matrix Composites
5%
Shape
5%
