Keyphrases
Borides
100%
Boride Layer
36%
Current Density
35%
Cathodic Reduction
35%
Electrolyte
33%
Thermal Diffusion
32%
Electrochemical Boriding
31%
Diffusion-based
29%
Reduction-diffusion
27%
Low Carbon Steel
27%
Fe2B
23%
TiB2
23%
Molten Salt Electrolysis
21%
Borax
20%
CRTD-Bor
20%
Electrolysis
19%
Titanium Diboride
15%
Phase Homogenization
15%
Cementation
14%
Scheelite Concentrate
14%
Nitrate Solution
14%
Cathodic Arc Deposition
12%
High Current Density
12%
Boriding Process
11%
Molten Salt
11%
Rutile
11%
Sulfuric Acid
10%
Oxides
10%
Scanning Electron Microscopy
9%
Copper Refining
9%
Duplex Process
9%
TiC-TiB2
9%
Tungstate
9%
Silver Cementation
9%
M2 High-speed Steel
9%
Pure Tungsten
9%
Boric Acid
9%
Forced Convection
9%
Rare Earth Elements
9%
Rhodium
9%
Cyanide
9%
Pyrophosphate
9%
Pulse Current
9%
Copper Recovery
9%
Copper Anode Slime
9%
Sericin
9%
Precipitation Technique
9%
Selenium
9%
Waste Solution
9%
Supercapacitor Application
9%
Material Science
Boride
75%
Density
42%
Oxide Compound
34%
X-Ray Diffraction
31%
Scanning Electron Microscopy
28%
Thermal Diffusion
27%
Silver
23%
Low Carbon Steel
22%
Titanium
20%
Homogenization
16%
Phase Composition
16%
Electrochemical Reaction
15%
Electrodeposition
14%
Anode
13%
Nanoparticle
12%
Cyclic Voltammetry
11%
Lubrication
9%
Tungsten
9%
Forced Convection
9%
Supercapacitors
9%
Chromium
9%
Thin Films
9%
Nucleation
9%
Silver Nanoparticle
8%
Antimony
8%
Crystal Growth
7%
Point Defect
7%
X Ray Diffraction Analysis
6%
Boron
6%
Electrode
6%
Cathode
5%
Engineering
Boriding
94%
Thermal Diffusion
43%
Mild Steel
30%
Molten Salt Electrolysis
18%
Phase Composition
14%
Process Parameter
13%
Increasing Temperature
13%
Cathodic Arc
12%
Physical Vapor Deposition
12%
Mols
12%
Ray Diffraction Method
11%
Ray Diffraction
10%
High Current Density
9%
Current Pulse
9%
Current Efficiency
9%
Specific Surface Area
9%
Forced Convection
9%
Optimum Condition
9%
Copper Refining
9%
Powder Metallurgy
9%
Flow Rate
9%
Supercapacitor
9%
Flow Velocity
9%
X-Ray Diffraction Analysis
9%
Thin Films
8%
Cross Section
8%
Liquid Ratio
8%
Duty Cycle
7%
Oil Lubrication
7%
Coefficient of Friction
7%
Friction Coefficient
7%
Activation Energy
7%
Indentation
7%
Alloying Element
6%
Process Step
6%
Wear Resistance
5%
Growth Kinetics
5%
Layer Thickness
5%