Keyphrases
Wear Properties
100%
Friction Coefficient
100%
ZnO Addition
100%
Corrosion Properties
100%
Al Matrix Composites
100%
Corrosive Wear
100%
Magnesium
100%
Microstructure
100%
Mechanical Properties
100%
Wear Rate
83%
Wear Coefficient
66%
Composite Sample
33%
Magnesium Matrix Composites
33%
Sliding Velocity
16%
Medical Sector
16%
Powder Metallurgy Route
16%
Friction
16%
Statistical Techniques
16%
Al-ZnO
16%
Argon Atmosphere
16%
Pin-on-disc
16%
Scanning Electron Microscope Image
16%
Energy Dispersive X-ray Analysis
16%
Aerospace Sector
16%
Zinc-aluminum Alloy
16%
Sintered Composite
16%
Working Conditions
16%
Energy Sector
16%
Density Porosity
16%
ZnO Content
16%
Wear Control
16%
ZnO Composites
16%
Compressive Strength
16%
Scanning Electron Microscopy
16%
Control Parameters
16%
Signal-to-noise Ratio Analysis
16%
Wear Performance
16%
Corrosion Rate
16%
Applied Load
16%
Uniformly Distributed
16%
Orthogonal Design
16%
Oxide Composite
16%
Sintering Process
16%
Taguchi
16%
Electron Energy
16%
ZnO Particles
16%
Sliding Distance
16%
Best Combination
16%
P Content
16%
Material Science
Corrosion
100%
Coefficient of Friction
100%
Matrix Composite
100%
ZnO
100%
Magnesium
100%
Scanning Electron Microscopy
33%
Powder Metallurgy
16%
Compressive Strength
16%
Density
16%
Aluminum
16%
Sintering
16%
Signal-to-Noise Ratio
16%
Zinc Oxide
16%
Energy Dispersive X Ray Analysis
16%
Engineering
Al Matrix
100%
Friction Coefficient
100%
Coefficient of Friction
100%
Velocity (V)
16%
Compression Strength
16%
Sliding Distance
16%
Porosity
16%
Powder Metallurgy
16%
Corrosion Rate
16%
Sintering Process
16%
Control Parameter
16%
Compressive Strength
16%
Pin-on-Disc
16%
Sliding Velocity
16%
Energy Engineering
16%
Signal-to-Noise Ratio
16%
Applied Load
16%
Energy-Dispersive X-Ray Analysis
16%