Chemical Engineering
Microwave Heating
100%
Hydroxyapatite
58%
Heavy Metal
43%
Hydrogel
38%
Copolymer
35%
Chitosan
35%
Electrodeposition
32%
Hyaluronic Acid
29%
Adsorption Efficiency
20%
Pyrolysis
19%
Nanoparticle
19%
Polycaprolactone
19%
Activated Carbon
19%
Aluminosilicate
19%
Temperature Distribution
19%
Polystyrene
19%
Polypropylene
19%
Polyvinyl Chloride
19%
Polyvinyl Alcohol
19%
Cesium
19%
Film
19%
Metal Ion Removal
19%
Functional Group
14%
Methyl Orange
12%
Polymerization
11%
Surfactant
9%
Membranes Separation
9%
Betaine
9%
Copolymerization
9%
Maximum Adsorption Capacity
8%
Heating Rate
6%
Spectrophotometry
6%
BET Analysis
6%
Material Science
Hydrogel
38%
Composite Material
38%
Copolymer
29%
Corrosion Resistance
29%
Heavy Metal
24%
Titanium Alloy
24%
Thermogravimetric Analysis
22%
Biocompatibility
22%
Hydrothermal Synthesis
19%
Nanoparticle
19%
Surface Coating
19%
Phillipsite
19%
Anodizing
19%
Zeolite
19%
Microplastics
19%
Oxide Compound
19%
Dielectric Property
19%
Permittivity
19%
Corrosion
19%
Titanium
19%
Electrophoretic Deposition
19%
Surface Modification
14%
Calcination
12%
Scanning Electron Microscopy
12%
Body Fluid
12%
Ti-6Al-4V
9%
Surface Active Agent
9%
Electroplating
9%
Ferromagnetic Material
9%
Copolymerization
9%
X-Ray Fluorescence Spectroscopy
6%
Aluminum
6%
Engineering
Microwave Heating
38%
Temperature Change
19%
Rice Husk Ash
19%
Monomer
19%
Heavy Metal
19%
Temperature Distribution
19%
Implant
19%
Dielectrics
12%
Pretreatment
9%
Crosslinker
9%
Operational Cost
9%
Liquid Waste
9%
Heavy Metal Ion
9%
Metal Content
9%
Industrial Development
9%
Polymerization
9%
Silicon Dioxide
9%
Resistance Property
9%
Corrosion Resistance
9%
Antibacterial Property
9%
Bone Tissue Engineering
7%
Good Agreement
6%
Estimated Parameter
6%
Measurement Error
6%
Measured Data
6%
