Engineering
Fatigue Crack
100%
Mechanisms
83%
Models
83%
Fiber
75%
Obtains
75%
Design
75%
Microstructure
75%
Micromechanical Modeling
66%
Biocomposite
50%
Ductile Fracture
50%
Material Microstructure
33%
Failure (Mechanical)
33%
Gel
26%
Stages
25%
Individual Fiber
25%
Parameter Space
25%
Feature Extraction
25%
Fibre Volume Fraction
25%
Composite
25%
Packing
25%
Natural Resources Exploration
25%
Numerical Analysis
25%
Cross-Link (Molecular Structure)
20%
Sliding Wear
18%
Deformation
16%
Anisotropic
16%
Critical Material
16%
Spatial Scale
16%
Failure Mechanism
16%
Newer Material
16%
Polycrystalline
16%
Crystal Plasticity Model
16%
Damage Parameter
16%
Individual Phase
16%
Material Optimisation
16%
Failure Process
16%
Fracture
16%
Accuracy
16%
Measures of Performance
16%
Mechanical Model
16%
Products
16%
Couplings
16%
Defects
16%
Evaluation
16%
Material Characteristic
16%
Constitutive Model
16%
Properties
12%
Polymer
12%
Performance
12%
Physics
Finite Element Methods
100%
Crystal Growth
100%
Microstructure
75%
Fibers
75%
Model
75%
Differential Scanning Calorimetry
56%
Utilization
54%
Fatigue Damage
50%
Shapes
50%
Wear
47%
Deformation
41%
Significance
41%
Performance
37%
Crystals
37%
Failure
33%
Abrasives
31%
Degradation
25%
Monte Carlo
25%
Surface Properties
25%
Glass Fiber
25%
Modulus of Elasticity
25%
Fiber Volume Fraction
25%
Numerical Analysis
25%
Exploration
25%
Independent Variables
25%
Images
25%
Composite
25%
Tracking
25%
Substrates
25%
Molecular Dynamics
25%
Growth
20%
Graphene Oxide
18%
Platelets
18%
Plastic Properties
16%
Numerical Model
16%
Polycrystalline
16%
Work
16%
Defects
16%
Evaluation
16%
Initiation
16%
Fracture
16%
Matrix
12%
Molecular Weight
12%
Chemistry
Procedure
75%
Fiber
75%
Microstructure
75%
Analytical Method
66%
Periodic Boundary Condition
50%
Molecular Dynamics
50%
Crystal Plasticity
50%
Shape
50%
Crystalline Material
41%
Length
37%
Metallic Material
33%
Polymer
25%
Glass Fiber
25%
Sample
25%
Carbon Fiber
25%
Particle Size
25%
Base
20%
Chemical Reaction
20%
Plastic Property
16%
Aqueous Solution
16%
Crack Initiation
16%
Thickness
16%
Brittle Fracture
16%
Chemical Reaction Product
16%
Degradation
13%
Amorphous Material
12%
