Engineering
Finite Element Analysis
100%
Porosity
84%
Hydrogel
79%
Finite Element Modeling
66%
Fluid Flow
59%
Biological Tissue
45%
Finite Deformation
43%
Crack Propagation
35%
Anions and Cation
33%
Electrical Potential
27%
Large Deformation
26%
One Dimensional
24%
Numerical Model
22%
Salt Concentration
21%
Chemical Potential
21%
Fiber Orientation
17%
Laws of Thermodynamics
17%
Pressure Difference
16%
Finite Element Simulation
16%
Hydraulic Fracturing
16%
Pressure Gradient
16%
Mixture Component
16%
Crack Tip
15%
Diffusion Equation
15%
Fluid Pressure
15%
Swelling Behavior
15%
Tensiles
14%
Mechanical Loading
14%
Transients
14%
Two Dimensional
13%
Diffusivity
13%
Deformation Theory
13%
Biochemicals
13%
Diffusion Coefficient
12%
Tissue Regeneration
12%
Solid Matrix
12%
Creep
12%
Fiber Direction
12%
Degree of Freedom
12%
Deformation Behavior
11%
Fibre Stress
11%
Constitutive Model
11%
Fracture Propagation
11%
Barrier Function
11%
Muscle Fiber
11%
Eigenvalue
11%
Loading Condition
10%
Numerical Modeling
9%
Local Pressure
9%
Fiber Content
9%
Material Science
Hydrogel
59%
Fluid Flow
49%
Finite Element Method
41%
Large Deformation
25%
Surface (Surface Science)
25%
Crack Propagation
25%
Finite Element Modeling
20%
Nucleation
11%
Confined Compression
11%
Hydraulics
10%
Sodium
10%
Proteoglycan
10%
Poroelasticity
9%
Extended Finite Element Method
9%
Elastic Moduli
9%
Piezoelectricity
8%
Density
7%
Fluid Statics
7%
Crack Tip
7%
Composite Material
6%
Materials Property
6%
Polymer Network
5%
Medical Device
5%
Osteoblast
5%
Creep
5%
