Keyphrases
Soft Magnetic
100%
Laser Powder Bed Fusion (L-PBF)
100%
Fe-Co-V Alloy
100%
Magnetic Properties
57%
Heat Treatment
57%
Microstructure
42%
Mechanical Properties
28%
Measurement Results
28%
Quasi-static
28%
Heat Treatment Cycle
28%
Chemical Composition
14%
Design Methodology
14%
Tensile Test
14%
Material Characterization
14%
Resistivity
14%
Gas Atomization
14%
Electrical Conductivity
14%
Design of Experiments Approach
14%
Magnetic Losses
14%
Direct Current
14%
AC Measurement
14%
Eddy Current
14%
Current Measurement
14%
DC Measurements
14%
Magnetic Permeability
14%
Low Porosity
14%
Fusion Machine
14%
Alternating Current
14%
Soft Magnetic Materials
14%
Abnormal Grain Growth
14%
Magnetic Flux Density
14%
Magnetic Coercivity
14%
Magnetic Performance
14%
Magnetic Saturation
14%
INIS
alloys
100%
lasers
100%
powders
100%
heat treatments
75%
magnetic properties
50%
microstructure
37%
values
25%
design
25%
mechanical properties
25%
performance
12%
losses
12%
saturation
12%
direct current
12%
chemical composition
12%
gases
12%
manufacturing
12%
porosity
12%
permeability
12%
magnetic flux
12%
flux density
12%
atomization
12%
electrical resistivity
12%
magnetic materials
12%
eddy currents
12%
grain growth
12%
alternating current
12%
coercive force
12%
cobalt 49
12%
Engineering
Powder Bed Fusion
100%
Heat Treatment
85%
Process Parameter
57%
Fusion Process
42%
Design of Experiments
14%
Current Measurement
14%
Magnetic Flux Density
14%
Limitations
14%
Tensile Test
14%
Gas Atomization
14%
Coercivity
14%
Porosity
14%
Direct Current
14%
Alternating Current
14%
Material Science
Laser Powder Bed Fusion
100%
Heat Treatment
85%
Magnetic Property
57%
Electrical Resistivity
28%
Soft Magnetic Material
14%
Abnormal Grain Growth
14%
Density
14%
Experimental Design
14%
Phase Composition
14%