Engineering
Epoxy Composite
100%
Design Problem
100%
Constraint Condition
100%
Joints (Structural Components)
100%
Computer Aided Engineering
88%
Internals
77%
Carbon-Fiber-Reinforced Plastic
66%
Composite Patch
66%
Fatigue Behavior
66%
Experimental Result
66%
Computer Aided Design
55%
Magnetic Bearing
50%
Fatigue Life
44%
Redesign
38%
Plasma Treatment
33%
Annular Plate
33%
Shear Deformation
33%
Rotary Inertia
33%
Delamination
33%
Directional
33%
Artificial Intelligence in Computer-Aided Design
33%
Packing Density
33%
Main Characteristic
33%
Injury Mechanism
33%
Elevators
33%
Load Capacity
33%
Construction Application
33%
Building Application
33%
Engineering Model
27%
Fatigue Failure
22%
Development Process
22%
Computer-Aided Design System
22%
Relational
16%
Multiple Constraint
16%
Cost Function
16%
Local Optimum
16%
Design Development
16%
Design Optimization
16%
Fracture Load
13%
Boundary Condition
13%
Resonant Frequency
13%
Atomic Force Microscopy
11%
Surface Morphology
11%
Bonding Strength
11%
Notched Specimen
11%
Mechanical Fatigue Test
11%
Applied Frequency
11%
Acetylene Gas
11%
Single Edge
11%
Load Ratio
11%
Material Science
Layout Design
100%
Graphite Epoxy Composites
73%
Annealing
66%
Fatigue Behavior
66%
Carbon Fiber Reinforced Plastics
66%
Simulated Annealing
66%
Carbon Fiber
33%
Delamination
33%
Fatigue of Materials
22%
Surface Roughness
22%
Surface Morphology
11%
Density
11%
Scanning Electron Microscopy
6%
Fracture Toughness
6%
Plastic Deformation
6%
Laminated Composite
6%
Microcracks
6%