Engineering
Finite Element Analysis
100%
Functionally Graded Material
90%
Cohesive Zone Model
39%
Numerical Example
32%
Stress-Intensity Factor
31%
Mixed Mode
27%
Material Gradation
25%
Asphalt Concrete
24%
Discretization
24%
Two Dimensional
22%
Nodes
21%
Boundary Element Method
20%
Illustrates
19%
Fracture Energy
19%
Element Method
18%
Optimisation Problem
18%
Cohesive Zone
15%
Pavement
15%
Crack Propagation
14%
Integral Method
14%
Structural Topology Optimization
12%
Piezoelectric
12%
Cohesive Model
12%
Cohesive Element
11%
Finite Element Mesh
11%
Dynamic Fracture
11%
Fracture Behavior
11%
Asphalt Pavements
11%
Experimental Result
10%
Fracture Property
10%
Crack Growth
10%
Single Edge
9%
Poisson Ratio
9%
Crack Tip
9%
Fracture Parameter
9%
Material Distribution
9%
Fracture Analysis
9%
Structural Design
9%
Stress Constraint
9%
Constitutive Model
9%
Displacement Field
9%
Young's Modulus
9%
Boundary Condition
9%
Degree of Freedom
9%
Engineering
9%
System Reliability
9%
Local Stress
9%
Green's Functions
8%
Crack Problem
8%
Nonhomogeneous Material
8%
Keyphrases
Topology Optimization
97%
Functionally Graded Materials
84%
Cohesive Zone Model
33%
Numerical Examples
30%
Material Gradation
24%
Finite Element
23%
Functionally Graded
23%
Origami
22%
Cohesive Fracture
20%
Asphalt Concrete
20%
Stress Intensity Factor
20%
Finite Element Method
19%
Three-dimensional (3D)
17%
Two Dimensional
16%
Numerical Results
16%
Material Properties
15%
Optimization Problem
14%
Polygonal Finite Elements
14%
Boundary Element Method
14%
Graded Finite Element
14%
Finite Element Mesh
13%
Interaction Integral Method
13%
Virtual Element Method
13%
Poisson's Ratio
12%
Fracture Energy
12%
Ground Structure
12%
Fracture Properties
12%
Numerical Simulation
12%
Structural Topology Optimization
12%
T-stress
11%
Cohesive Model
11%
Matrix Laboratory (MATLAB)
10%
Mixed-mode Fracture
10%
Asphalt Pavement
10%
Interaction Integral
10%
Concrete Crack
10%
Crack Propagation
10%
Mixed-mode Stress Intensity Factors
10%
Analytical Solution
10%
Origami Structure
10%
Displacement Field
10%
Finite Element Analysis
10%
Potential-based
9%
Fracture Behavior
9%
Material Distribution
9%
Optimization Approach
9%
Hypersingular
9%
Fracture Analysis
9%
Graded Materials
9%
Cohesive Element
9%