Engineering
Finite Element Method
100%
Singularities
47%
Intensity Function
45%
Eigenpairs
34%
Singular Point
32%
Stress-Intensity Factor
29%
Experimental Observation
29%
Failure Initiation
27%
Anisotropic
27%
Two Dimensional
27%
Stress Intensity
27%
Patient Specific
22%
Numerical Example
22%
D Domain
21%
Mechanical Response
20%
Finite Element Modeling
19%
Dimensional Domain
17%
Eigenvector
16%
Failure Criterion
16%
Numerical Methods
16%
Finite Element Solution
15%
Notch Tip
15%
Phase Field
14%
Mixed Mode
13%
Axisymmetric
13%
Laplaces Equation
12%
Boundary Condition
11%
Engineering
11%
Energy Engineering
11%
Eigenvalue
10%
Material Interface
10%
Elasticity Problem
10%
Finite Deformation
10%
Field Model
9%
Fracture Mechanics
9%
Boundary Value
9%
Failure Load
9%
Asymptotic Expansion
9%
Laplace Operator
9%
Benchmark Problem
9%
Crack Front
8%
Young's Modulus
8%
Crack Propagation
7%
Elastic Solution
7%
Composite Material
7%
Dirichlet Boundary Condition
7%
Energy Release Rate
7%
Principal Strain
7%
Failure Theory
7%
Stress Field
6%
Keyphrases
Finite Element Analysis
49%
Eigenpair
39%
Femur
38%
Hp-FEM
29%
V-notch
29%
Failure Initiation
26%
Computed Tomography
25%
Edge Stress Intensity Functions
23%
High-order Finite Elements
23%
Three-dimensional (3D)
23%
P-version Finite Element Method
21%
Patient-specific
21%
Mechanical Response
21%
D Domain
20%
Finite Element Model
20%
Finite Element Method
18%
Material Properties
18%
Numerical Examples
18%
Asymptotic Solution
17%
Finite Element
17%
Edge Flux Intensity Functions
16%
Proximal Femur
15%
Finite Element Solution
15%
Failure Criterion
15%
Two Dimensional
15%
Function Method
15%
Eigenfunctions
14%
Three-dimensional Domain
14%
Human Femur
14%
Generalized Stress Intensity Factor
14%
Edge Singularity
14%
Notch Tip
13%
Multi-material Interface
13%
Crack Front
13%
Numerical Methods
12%
Laplace Equation
12%
Polyhedral Domain
12%
Phase-field Model
11%
Singular Edge
11%
Elastic Material
11%
Quantitative Computed Tomography
11%
High-order
11%
Quasi-dual Function Method
11%
In Vitro Experiment
11%
Reentrant Corner
10%
Numerical Analysis
10%
CT-based
10%
CT-based Finite Element Analysis
10%
Stress Intensity Factor
10%
Humerus
9%