Keyphrases
Microanode-guided Electroplating
100%
Ni-Cr Alloy
66%
Electrochemical Additive Manufacturing
66%
Three-dimensional (3D)
66%
High Strength
44%
Micropillar
33%
FeCo
33%
Fe-Ni Alloy
33%
Reduced Young's Modulus
28%
Compositional Properties
28%
Tempering Stability
22%
Frangibility
22%
NiCrBSi
22%
Microhelix
22%
Electrode Coating
22%
Excellent Mechanical Properties
22%
Sensor Device
22%
Kinetic Control
22%
Order of Magnitude
22%
Chemical Characteristics
22%
Joule Heating
22%
Physical Properties
22%
Morphological Properties
22%
Amorphous Phase
22%
Physical Characteristics
22%
Control Process
22%
Corrosion Resistance
22%
Amorphous Metals
22%
Electrical Field
22%
High Temperature
22%
Electrode Gap
22%
Current Density
22%
Bath Composition
13%
Coercive Magnetic Field
6%
Iron-Cobalt
6%
Fe2+
6%
XRD Analysis
6%
Nickel Alloys
6%
Saturation Magnetization
6%
Field Emission Scanning Electron Microscopy (FE-SEM)
6%
Ni Electrodeposition
6%
Iron-nickel Alloy
6%
Nanoindentation Test
6%
Co2+
6%
Nanocrystals
6%
Ni2+
6%
Magnetic Properties
6%
Mechanical Properties
6%
Electrolyte
6%
Engineering
Resistance Heating
66%
Sensor Device
66%
Corrosion Resistance
66%
Electrode Gap
66%
Electric Field
66%
Transducer
66%
Amorphous Phase
66%
Thin Films
66%
Additive Manufacturing
66%
Super High
66%
Phase Composition
66%
Young's Modulus
66%
Process Control
66%
Material Science
Electroplating
100%
Nichrome
66%
Three Dimensional Printing
66%
Phase Composition
55%
Iron-Nickel Alloys
33%
Young's Modulus
33%
Alloying
22%
Density
22%
Physical Property
22%
Thin Films
22%
Process Control
22%
Corrosion Resistance
22%
Chemical Property
22%
X-Ray Diffraction
11%
Field Emission Scanning Electron Microscopy
11%
Electrodeposition
11%
Energy-Dispersive X-Ray Spectroscopy
11%
Nanoindentation
11%
Cobalt
11%
Magnetic Property
11%