Engineering
Ionic Polymer Metal Composite
100%
Bioenergy
100%
Bioelectricity
83%
Actuation
69%
Delamination
66%
Sintering
66%
Shear Deformation
47%
Finite Element Analysis
41%
Order Boundary Condition
33%
Network Polymer
33%
Finite Strain
33%
Diffusive
33%
Delamination Growth
33%
Size Effect
33%
Flexure
33%
Axisymmetric
33%
Convective
33%
Ion Concentration
33%
Biochemicals
33%
One Dimensional
33%
Deformation Mechanism
33%
Composite Beam
33%
Applied Voltage
33%
Phase Field
33%
Barium Titanate
33%
Field Model
33%
Maxwell Stress
25%
Fluid Phase
25%
Critical Role
22%
Shipbuilding
20%
Adhesive Joints
20%
Finite Element Simulation
19%
Electrostatic Force
19%
Plastic Strain Rate
16%
Flow Strength
16%
Axisymmetric Compression
16%
Creep
16%
Simple Shear
16%
Length Scale
16%
Shear Strength
16%
Shear Strain
16%
Material Dissolution
16%
Parallel Plate
16%
Scale Thickness
16%
Compression Strength
16%
Strain Gradient
16%
Compressive Strength
16%
Good Agreement
16%
Strain Rate
16%
Rates of Strain
16%
Material Science
Finite Element Method
100%
Delamination
66%
Cathode
66%
Sintering
66%
Cell Membrane
50%
Anode
50%
Polymeric Membrane
50%
Electronic Circuit
33%
Timber
33%
Strain Rate
33%
Lithium
33%
Deformation Mechanism
33%
Film
33%
Finite Strain
33%
Polymer Network
33%
Phase Field Model
33%
Barium Titanate
33%
Corrosion
16%
Lithium Dendrite
16%
Lithium Ion Battery
16%
Density
16%
Lithium Ion
16%
Solid Electrolyte
16%
Rigidity
16%
Elastic Moduli
16%
Large Deformation Theory
16%
Actuator
16%
Electroceramics
16%
Delamination
16%
Shear Strength
11%
Shear Strain
11%
Compressive Strength
11%
Creep
11%
Activation Energy
8%
Diffusivity
7%
Debonding
6%