Keyphrases
Tribological Behavior
66%
Copper Refining
66%
Nanocomposite Coating
66%
Furnace Dust
66%
Refining Furnace
66%
Dry Sliding Wear
41%
Acidic Leaching
41%
Stirring Speed
38%
Single Bond
33%
Cu Doping
33%
Cu Nanocomposite
33%
Base Metals
33%
Flue Dust
33%
Lubricated Sliding
33%
Solid-to-liquid Ratio
33%
Heavy Metals
33%
Cu-based Nanocomposites
33%
Sulfuric Acid
30%
Leaching
30%
Leaching Experiment
30%
Wear Behavior
27%
Zinc
27%
Metal Dissolution
22%
Sliding Condition
22%
Mechanical Properties
22%
Roasting Time
22%
Pyrite Roasting
22%
Roasting Temperature
22%
Dust Fractions
22%
Dissolution Rate
22%
Pyrite
22%
Sliding Surface
19%
Copper Production
19%
Tribological Applications
19%
Electrolytic Copper
19%
Turkey
19%
Friction Behavior
16%
L-ratio
16%
Electron Microscopy
11%
Dust Samples
11%
Nanocomposite Materials
11%
Copper-doped
11%
Coating System
11%
Calcine
11%
Direct Acid Leaching
11%
Wear Testing
11%
Leaching Time
11%
Production Companies
11%
Roasting
11%
Reciprocating Wear Test
11%
Material Science
Nanocomposite Coating
100%
Film
66%
Silver
33%
Oxide Film
33%
Spectroscopy Technique
33%
Raman Spectroscopy
33%
Machining
33%
Zinc
33%
Oxide Compound
33%
Nanocomposite
33%
Heavy Metal
33%
Magnetron Sputtering
33%
Grain Size
33%
Structural Property
22%
Phase Composition
16%
Nitride Compound
11%
Electron Microscopy
11%
Thin Films
11%
Wear Testing
11%
Physical Vapor Deposition
11%