Physics
Laser
100%
Parameter
100%
Strength of Materials
100%
Alloy
100%
Fiber Laser
100%
Nitriding
100%
Cracks
44%
Scanning Electron Microscopy
33%
Cycles
33%
Microscopy
22%
X Ray Diffraction
22%
Quality
11%
Area
11%
Substrates
11%
Continuous Radiation
11%
Optimization
11%
Failure
11%
Heating
11%
Nitrogen
11%
X Ray Spectroscopy
11%
Air
11%
Microhardness
11%
Hardness Test
11%
Corrosion
11%
Gaseous State
11%
Laser Material
11%
Material Science
Laser
100%
Mechanical Property
100%
Fiber Laser
100%
Nitriding
100%
Niobium Alloys
100%
Surface
44%
Crack
44%
Microscopy
22%
Scanning Electron Microscopy
22%
X-Ray Diffraction
22%
Gas
11%
Experimental Design
11%
Microstructure
11%
Surface Property
11%
Morphology
11%
Air
11%
Microhardness
11%
Corrosion
11%
Energy-Dispersive X-Ray Spectroscopy
11%
Indentation Hardness Testing
11%
Nitride Compound
11%
Scanning Electron Microscopy-Energy Dispersive X-Ray
11%
Laser Material
11%
Dilution
11%
Hardness
11%
Engineering
Mechanical Properties
100%
Fibre Laser
100%
Laser Nitriding
100%
Crack
50%
Surfaces
37%
Duty Cycle
37%
Obtains
25%
Ray Diffraction
25%
Vickers
25%
Free Surface
25%
Substrates
12%
Failure (Mechanical)
12%
Laboratories
12%
Energy Engineering
12%
Continuous Wave
12%
Measurement
12%
Optimization
12%
Cross Sections
12%
Microstructure
12%
Corrosion
12%
Conventional Method
12%
Design of Experiments
12%
Micrograph
12%
Energy Input
12%
Nitride
12%
Main Reason
12%
Dilution
12%
Laser Energy
12%
Proper Selection
12%
Interaction Time
12%
Micro Hardness Test
12%
Nitrided Sample
12%
Maximum Hardness
12%