Engineering
Peridynamics
100%
Finite Element Method
51%
Solution Method
26%
Nonlinear Analysis
22%
Shell Element
22%
Elastic Deformation
22%
Complex Potential
20%
Buckling Analysis
18%
Boundary Condition
17%
Loading Condition
16%
Sandwich Panel
15%
Equilibrium Equation
13%
Patch Repair
13%
Joints (Structural Components)
13%
Stress Field
13%
Multibody Dynamics
12%
Stiffness Matrix
12%
Transients
11%
Buckling
11%
Shallow Shells
10%
Failure Mode
10%
Progressive Failure
10%
Potential Function
9%
Dynamic Response
9%
Plate Theory
9%
Microstructure
9%
Bolt Hole
9%
Composite Structure
9%
Rigid Body Motion
9%
Laminated Composite Plate
9%
Sandwich Plate
9%
Composite Shell
9%
Transverse Bending
9%
Bending Deformation
9%
Rotation (Kinematics)
9%
Aerodynamic Load
9%
Grain Boundary
9%
Micromechanical Analysis
9%
Blast Loading
9%
Complete Stress
9%
Layer Theory
9%
Damage Initiation
8%
In-Plane Loading
8%
Rotational
8%
Structural Failure
8%
Plane Stress
8%
Discretization
7%
Lagrangian Formulation
7%
Contact Stress
7%
Singularities
7%
Keyphrases
Peridynamics
30%
Cutout
23%
Composite Laminates
19%
Bonded Patch Repair
13%
Nonlinear Analysis
13%
Buckling Analysis
13%
Peridynamic Differential Operator
12%
Solution Method
11%
Peridynamic Theory
11%
Transverse Displacement
11%
Variational Formulation
10%
Complex Potential
10%
Stress Field
10%
Equilibrium Equations
10%
Kinematics
9%
Oval Cross-section
9%
Geometric Irregularities
9%
Refined Zigzag Theory
9%
Stretching Deformation
9%
Laminated Composite Plate
9%
Laminated Sandwich Plate
9%
Bonded Composites
9%
Multiple Cutout
9%
Blast Loading
9%
Sandwich Panel
9%
Failure Prediction
9%
Micromechanical Analysis
9%
Meshless
9%
Strength Properties
9%
Laminate Strength
9%
Variable Amplitude Loading
9%
Zigzag
9%
Kinetic Theory of Fracture
9%
Single-layer Theory
9%
Constant Amplitude Loading
9%
Residual Strength
9%
Stress Analysis
9%
Bond-based Peridynamics
9%
Semi-analytical Solution
8%
Shear Lag
8%
Complex Potential Function
8%
Plate Theory
8%
Transverse Normal Stress
8%
Transverse Strain
7%
Minimum Potential Energy Principle
7%
Circular Cutout
7%
Pre-existing Cracks
7%
Finite Element Analysis
7%
Transverse Shear Stress
7%
Damage Pattern
7%