Material Science
Amorphous Material
100%
Hydrogel
89%
Shape Memory
87%
Shape Memory Polymer
84%
Elastomer
67%
Finite Element Modeling
62%
Finite Element Method
45%
Creep
39%
Materials Property
35%
Dielectric Material
33%
Fiber Structure
33%
Liquid Crystal
33%
Viscoelasticity
29%
Structural Relaxation
28%
Strain Rate
28%
Glass Transition
28%
Stress Relaxation
28%
Glassy Polymer
26%
Young's Modulus
25%
Crack Growth
22%
Work Hardening
22%
Memory Effect
22%
Viscoelastic Behavior
20%
Density
19%
Nonlinear Viscoelasticity
19%
Shape Memory Effect
18%
Polyethylene Glycol
18%
Mechanical Property
17%
Anisotropy
17%
Elastic Property
16%
Fracture Toughness
16%
Plastic Deformation
16%
Tensile Loads
14%
Three Dimensional Printing
14%
Polymer Network
14%
Stress-Strain Relations
14%
Glass Transition Temperature
12%
Ultimate Tensile Strength
11%
Polymer Composite
11%
Fused Filament Fabrication
11%
Thermoplastics
11%
Film Thickness
11%
Thermal Barrier Coatings
11%
Four Dimensional Printing
11%
Biopolymer
11%
Differential Scanning Calorimetry
11%
Digital Volume Correlation
11%
Indentation
11%
Nanoindentation
11%
Thermodynamics Modeling
11%
Engineering
Anisotropic
57%
Finite Element Method
51%
Digital Image Correlation
48%
Stress Relaxation
41%
Tensiles
33%
Biomechanics
33%
Hydrogel
33%
Displacement Field
31%
Creep Test
28%
Fiber Alignment
28%
Internals
25%
Constitutive Model
24%
Finite Element Modeling
23%
Matrix Stiffness
22%
Recovery Stress
22%
Harmonic Generation
22%
Strain Response
22%
Circumferential
22%
Blast Loading
22%
Bulge Test
22%
Fibrous Tissue
22%
Collagen Network
22%
Memory Effect
20%
Human Eye
17%
Mechanical Loading
16%
Microstructure
16%
Young's Modulus
16%
Dependent Strain
16%
Stress-Strain Relations
16%
Displacement Response
16%
Plate Bending
16%
Model Parameter
15%
Blast Wave
14%
Creep Rate
13%
Cyclic Loading
13%
Cooling Rate
13%
Hysteresis Stress
13%
Pressurization
13%
Node Density
11%
Responsive Hydrogel
11%
Soft Material
11%
Generated Stress
11%
Blast Overpressure
11%
Energy Storage Modeling
11%
Hardening Behavior
11%
Loss Coefficient
11%
Dynamic Mechanical Analysis
11%
Physiologic Function
11%
Multiscale
11%
Microscale
11%
Keyphrases
Glaucoma
73%
Lamina Cribrosa
58%
Intraocular Pressure
48%
Optic Nerve Head
40%
Astrocytic
30%
Strain Response
28%
Lamin
23%
Sclera
22%
Peripapillary Sclera
22%
Mechanical Properties
19%
Inflation
17%
Digital Volume Correlation
16%
Thermoviscoelastic
16%
Mechanical Strain
16%
Lamina Cribrosa Depth
14%
Extracellular Matrix
14%
Cornea
14%
Thermo-viscoelastic Model
14%
Pressure Decrease
13%
Trabeculectomy
12%
Astrocytes
12%
Nasal
12%
Visual Field
12%
Emax
11%
Deformation Measurement
11%
Nonlinear Creep
11%
Polyethylene Glycol
11%
Anisotropic Viscoelastic
11%
Artificial Intelligence Classification
11%
Biomechanical Assessment
11%
Scleral Stiffness
11%
Shape Memory Polymer Composites
11%
Lamellar Crystals
11%
Macrofibril
11%
Viscoplastic Deformation
11%
Network Strengthening
11%
Scleral Crosslinking
11%
Crack Dynamics
11%
Induced Strain
11%
Mouse Model
11%
Damping Behavior
11%
Metallic Lattice Materials
11%
Continuum Method
11%
Branching Instabilities
11%
Weak Plane
11%
Dynamic Crack
11%
Crack Instability
11%
Near-tip
11%
Pressure-induced
11%
Intereye
11%