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MICROSCALE PERMEABILITY PREDICTIONS OF POROUS FIBROUS MEDIA
Nam D. Ngo
,
Kumar K. Tamma
Mechanical Engineering
Research output
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Chapter in Book/Report/Conference proceeding
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Conference contribution
Overview
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Keyphrases
Permeability Prediction
100%
Porous Fibrous Materials
100%
Three-dimensional (3D)
66%
Fiber Preform
66%
Effective Permeability
33%
Fiber Mats
33%
Stokes Equations
33%
Woven Fabric
33%
Realistic Representation
33%
Molding Process
33%
Fabric Structure
33%
Structural Composites
33%
Unit Cell Model
33%
Brinkman Equation
33%
Permeability Variation
33%
Woven Fiber
33%
Computational Approximation
33%
Composite Molding
33%
Prediction Calculation
33%
Composite Process
33%
Engineering
Microscale
100%
Fiber Preform
100%
Porosity
100%
Good Agreement
50%
Stokes Equation
50%
Cell Model
50%
Fabric Structure
50%
Fiber Mat
50%
Moulding Process
50%
Effective Permeability
50%
Permeability Variation
50%
Material Science
Composite Material
100%
Structural Composite Material
100%
Chemical Engineering
Polyethylene Terephthalate
100%