Keyphrases
Computational Modeling
100%
Surface Stress
100%
Microcomputed Tomography
100%
Porous Scaffold
100%
Shear Stress Distribution
100%
Leech
100%
Flow Shear Stress
100%
Imaging Model
50%
Tissue Engineering
50%
Manufacturing Methods
50%
Shear Force
50%
Internal Structure
50%
Manufacturing Parameters
50%
Modeling Approach
50%
3D Structure
50%
3D Scaffold
50%
Probability Density Function
50%
Polymer System
50%
Flow Stress
50%
Porosity
50%
Lattice Boltzmann Method
50%
Stress Distribution
50%
High Stress
50%
Local Shear
50%
Osteogenic Medium
50%
High-resolution Micro-computed Tomography
50%
Flow Perfusion
50%
Skewness
50%
Poly(L-lactic acid)
50%
Geometric Characteristics
50%
Surface Shear Stress
50%
Preosteoblast Cells
50%
Average Pore Size
50%
Long Tail
50%
Scaffold Manufacturing
50%
Analytical Estimation
50%
Manufacturing Defects
50%
High Flow
50%
Continuous Flow
50%
Engineering
Porous Scaffold
100%
Defects
66%
Shear Stress Distribution
66%
Tissue Engineering
33%
High Resolution
33%
Manufacturing Technique
33%
Shear Force
33%
Porosity
33%
Primary Goal
33%
Probability Density Function
33%
Polymer System
33%
Lattice-Boltzmann Method
33%
Internal Structure
33%
Flow Stress
33%
Average Pore Size
33%
Seeded Cell
33%