Engineering
Mechanical Performance
100%
Removal Efficiency
100%
Mass Fraction
100%
Mechanical Property
100%
Nanocomposite Membrane
100%
Surface Morphology
100%
Early Failure
100%
Flux Rate
100%
Experimental Finding
100%
Fouling Surface
100%
Heavy Metal
100%
FTIR Spectroscopy
100%
Dry Condition
100%
Phase Separation
100%
Chemical Structure
100%
Tensile Testing
100%
Fouling Resistance
100%
Small Deformation
100%
Ultimate Tensile Strength
100%
Membrane Performance
100%
Keyphrases
Heavy Metal Rejection
100%
Rejection Performance
100%
Cellulose Nanofibrils
100%
Reinforced
100%
Cellulose Acetate Membrane
100%
Mechanical Performance
100%
Cellulose Acetate
87%
Acetate Cellulose
37%
Dam Water
25%
Mechanical Properties
25%
Early Failure
12%
Wet Condition
12%
Mass Fraction
12%
Phase Separation Technique
12%
Tensile Stiffness
12%
Ba2+
12%
Flux Rate
12%
Tensile Strength
12%
Mechanical Characterization
12%
Flux Performance
12%
Chemical-structural Properties
12%
High Efficiency
12%
Fourier Transform Infrared Spectroscopy (FT-IR)
12%
Water Treatment Process
12%
Surface Morphology
12%
Fe2+
12%
Pure Water
12%
Surface Fouling
12%
Chemical Structure
12%
Removal Efficiency
12%
Scanning Electron Microscopy
12%
Membrane Performance
12%
Nanocomposite Membrane
12%
Mechanical Behavior
12%
Small Deformation
12%
Drying Conditions
12%
Tensile Test
12%
High Concentration
12%
Al3+
12%
Mori-Tanaka
12%
Fouling Resistance
12%
Mean-field Homogenization
12%
Material Science
Heavy Metal
100%
Cellulose Acetate
100%
Fourier Transform Infrared Spectroscopy
10%
Scanning Electron Microscopy
10%
Ultimate Tensile Strength
10%
Surface Morphology
10%
Structure (Composition)
10%
Nanocomposite
10%
Homogenization
10%
Mechanical Testing
10%
Small Deformation
10%
Tensile Testing
10%
Mechanical Property
10%
Chemical Engineering
Heavy Metal
100%
Fouling
100%
Separation Method
50%
Phase Separation
50%