Material Science
Analytical Method
7%
Beam Theory
8%
Bending Load
25%
Carbon Fiber
10%
Carbon Nanotube
6%
Cellular Structure
26%
Cohesive Zone Model
17%
Composite Laminate
73%
Composite Material
100%
Composite Material
8%
Crystal Structure
57%
Debonding
54%
Delamination
69%
Density
10%
Elastic Moduli
10%
Elasticity
17%
Epoxy
7%
Extended Finite Element Method
12%
Fiber-Reinforced Composite
6%
Finite Element Method
38%
Finite Element Modeling
20%
Fracture Toughness
12%
Fused Filament Fabrication
12%
Glass Fiber
36%
Honeycomb Structure
17%
Indentation
12%
Laminated Composite
41%
Laminated Plate
13%
Low-Cycle Fatigue
6%
Materials Property
18%
Matrix Cracking
70%
Mechanical Property
16%
Micromechanics
24%
Multilayer
9%
Nanostructure
6%
Nanowire
12%
Piezoelectricity
19%
Poisson Ratio
15%
Polylactide
11%
Polyurethane
8%
Polyvinyl Chloride
8%
Reinforced Plastic
6%
Residual Stress
9%
Stress-Strain Relations
11%
Surface (Surface Science)
28%
Theory of Elasticity
6%
Thermal Stress
12%
Three Dimensional Printing
14%
Transverse Cracking
11%
Yield Stress
8%
Engineering
Absorbed Energy
11%
Actuator
9%
Additive Manufacturing
8%
Analytical Model
20%
Bending Load
12%
Casimir Force
14%
Composite Ply
16%
Composite Sandwich Panel
9%
Compressive Test
8%
Conductive
9%
Constitutive Equation
9%
Continuous Fiber
8%
Convolutional Neural Network
8%
Crack Density
9%
Damage Detection
12%
Debonding
21%
Delamination
15%
Dispersion Force
17%
Elasticity Theory
10%
Energy Absorption
27%
Energy Absorption Capability
12%
Energy Absorption Capacity
15%
Experimental Result
17%
Fem Model
8%
Finite Element Analysis
30%
Finite Element Modeling
9%
Geometric Parameter
14%
Good Agreement
17%
Honeycomb Structure
10%
Induced Delamination
25%
Interfacial Energy
9%
Matrix Cracking
34%
Micromechanics
9%
Modulus of Elasticity
15%
Nanowire
25%
Nonlinear Response
8%
Numerical Evaluation
8%
Numerical Methods
8%
Numerical Model
12%
Parametric Study
12%
Piezoelectric
9%
Porosity
10%
Sandwich Panel
9%
Specific Energy Absorption
10%
Stiffness Matrix
8%
Surface Layer
15%
Thermal Stress
9%
Transverse Crack
9%
Transverse Cracking
9%
Yield Point
10%
Keyphrases
Analytical Method
8%
Auxetic Honeycomb
6%
Bending Loading
7%
Casimir Force
9%
Cellular Structure
9%
Circular Cross-section
7%
Composite Laminates
18%
Composite Lattice Structure
6%
Continuous Fiber Composites
6%
Corrugated Core
10%
Crack Formation
8%
Cross-ply Composites
14%
Cross-ply Laminates
6%
Cylindrical Nanowire
7%
Damage Detection
7%
Damage Event
7%
Debonding
10%
Delamination
11%
Delamination Growth
6%
Dispersion Forces
10%
Dynamic Instability
7%
Electrostatic Force
11%
Energy Absorption
14%
Energy Release Rate
6%
Equivalent Mechanical Properties
9%
Failure Mode
6%
I-mode
11%
Induced Delamination
17%
Laminated Composites
8%
Lattice Structure
6%
Lattice Structure Optimization
6%
Matrix Cracking
29%
Mechanical Properties
14%
Microbeam
6%
Micromechanics Approach
7%
Mixed Mode I-II
9%
Nanoelectromechanical Systems
9%
Nanowires
7%
Numerical Investigation
6%
Numerical Methods
10%
Plane Strain Model
6%
Pull-in Instability
7%
Quasi-isotropic Laminate
6%
Rectangular Nanoplates
6%
Residual Stress Effect
6%
Size-dependent Dynamics
9%
Surface Layer
7%
Three-point Bending Load
9%
Transverse Crack
17%
Tweezers
8%
