Keyphrases
Composite Sandwich Beam
23%
Curved Sandwich Beam
16%
Damping Analysis
18%
Damping Material
10%
Differential Quadrature Method
15%
Differential Transform Method
100%
Dynamic Analysis
15%
Dynamic Response
19%
Entropy Generation
62%
Equations of Motion
23%
Exact Solutions
10%
Experimental Validation
15%
Face Layer
20%
Flow Field
29%
Fluid Flow
12%
Flywheel
15%
Fractional Derivative Model
21%
Fractional Differential Equations
11%
Free Disk
13%
Free Vibration
11%
Frequency Dependence
15%
Galerkin Method
12%
Generalized Differential Quadrature Method
43%
Governing Equation
33%
Hamilton's Principle
10%
Heat Transfer
23%
Heat Transfer Fluid
11%
Inclined Channel
31%
Integro-differential Equations
19%
Magnetohydrodynamics
15%
Multi-objective Optimal Design
23%
Non-dominated Sorting Genetic Algorithm (NSGA-II)
12%
Numerical Results
10%
Principle of Virtual Work
11%
Rail Pad
18%
Railway Superstructure
12%
Rotating Disk
38%
Sandwich Beam
13%
Sandwich Plate
10%
Slip Flow
15%
Solution Technique
22%
Temperature Effect
12%
Temperature Jump
15%
Temperature Profile
12%
Thermal Field
16%
Velocity Jump
15%
Vibration Analysis
44%
Viscoelastic Behavior
10%
Viscoelastic Core
41%
Viscoelastic Material
15%
Engineering
Blasius Equation
7%
Boundary Condition
48%
Clear Fluid
9%
Combined Effect
11%
Constant Temperature
9%
Dimensionless
8%
Dynamic Response
20%
Elastomer
10%
Entropy Generation
64%
Finite Element Analysis
16%
Finite Element Solution
9%
Flow Distribution
24%
Fluid Flow
12%
Flywheel
15%
Fractional Derivative
14%
Free Vibration
16%
Frequency Domain
20%
Generalised Differential Quadrature Method
49%
Genetic Algorithm
11%
Good Agreement
20%
Hamilton's Principle
17%
Heat Transfer Fluid
10%
Illustrates
15%
Jump Condition
18%
Layer Thickness
10%
Loss Factor
12%
Magnetohydrodynamics
15%
Non-Dominated Sorting Genetic Algorithm II
12%
Numerical Technique
10%
Optimal Design
23%
Porosity
19%
Quadrature Method
15%
Rail Pad
18%
Railway
17%
Rectangular Plate
7%
Resonant Frequency
8%
Rotating Disk
46%
Sandwich Plate
9%
Slip Flow
15%
Slip Velocity
13%
Solution Technique
27%
Superlattice
23%
System Parameter
10%
Temperature Distribution
14%
Temperature Jump
15%
Temperature Profile
11%
Thermal Field
19%
Two Dimensional
11%
Velocity Field
9%
Vibration Analysis
32%