Engineering
Network Polymer
78%
Indentation
63%
Complex Coacervation
52%
Ionic Strength
52%
High Ionic Strength
42%
Complex Fluid
42%
Rigidity
42%
Room Temperature
42%
Hydrophobic
31%
Work of Adhesion
31%
Phase Separation
31%
Hydrogel
31%
Modulus of Elasticity
28%
Length Scale
24%
Soft Material
22%
Crosslinker
21%
Mols
21%
Photonics
21%
Salt Concentration
21%
Gelation
21%
Energy Dissipation
21%
Grafts
21%
Fracture Behavior
21%
Sand Grain
21%
Mechanical Stress
21%
Deconvolution
21%
Dynamic Range
21%
Biopolymer
21%
Internal Stress
21%
Biological Tissue
21%
Fluidics
21%
Force Transmission
21%
Moisture Content
21%
Brittleness
21%
Size System
15%
Ductile Fracture
15%
Surrounding Environment
10%
Covalent
10%
Multi-Scale Approach
10%
Responsivity
10%
Finite Element Simulation
10%
Color Change
10%
Optical Sensors
10%
Mechanical Force
10%
Mechanical Signal
10%
Characteristic Length
10%
Bending Rigidity
10%
Saturates
10%
Applied Force
10%
Mechanical Deformation
10%
Strain Sensitivity
10%
Early Failure
10%
Mechanical Stability
10%
Sensitive Detection
10%
Thermal Fluctuation
10%
Network Connectivity
10%
Nanoparticle
10%
Liquid Phase
10%
Silica Nanoparticle
10%
Temperature Strength
10%
Synthetic Material
10%
Fracture Plane
10%
Tissue Mechanics
10%
Load Bearing Component
10%
Nanofiller
10%
Adhesive Contact
10%
Mechanical Property
10%
Phase Composition
10%
Electrostatic Force
10%
Silicon Dioxide
10%
Atomic Force Microscopy
7%
Fracture Energy
7%
Failure Process
7%
Cylindrical Probe
7%
Crack Propagation
7%
Finite Element Analysis
7%
Maximum Stress
5%
Brittle Fracture
5%
Spring Force
5%
Failure Response
5%
Increasing Temperature
5%
Material Science
Polymer Network
100%
Polyelectrolyte
84%
Indentation
63%
Hydrogel
63%
Rigidity
42%
Adhesive Property
42%
Silica Nanoparticle
35%
Elastomer
31%
Complex Fluid
31%
Elastic Moduli
28%
Silicon Dioxide
28%
Design Principle
26%
Heterogeneous Material
24%
Biopolymer
21%
Brittleness
21%
Fracture Behavior
21%
Polymer Architecture
21%
Polymer
21%
Mechanical Stress
21%
Ductile-to-Brittle Transition
21%
Mechanical Property
21%
Volume Fraction
21%
Stress Relaxation
21%
Fluidics
21%
Metamaterial
21%
Large Deformation
21%
Confocal Microscopy
21%
Materials Mechanics
21%
Nanoparticle
21%
Thermal Property
21%
Solidification
21%
Phase Composition
21%
Ductile Fracture
15%
Finite Element Method
14%
Nucleation
14%
Polymer Matrix
14%
Polymer Particle
14%
Rheology
14%
Mechanical Stability
10%
Chemical Bonding
10%
Sensitive Detection
10%
Functional Material
10%
Mechanical Deformation
10%
Stress Concentration
10%
Percolation
10%
Complexation
10%
Crack Propagation
7%
Desorption
7%
Density
7%
Molecular Structure
7%
Phase Interface
7%
Brittle Fracture
5%
Strength of Materials
5%