INIS
corrosion resistance
100%
modeling
100%
prediction
100%
pitting corrosion
100%
welds
100%
austenitic steels
100%
solidification
72%
speed
45%
welding
45%
segregation
27%
investigations
27%
dendrites
27%
simulation
18%
shape
18%
interfaces
9%
pools
9%
microstructure
9%
metals
9%
increasing
9%
variations
9%
range
9%
computerized simulation
9%
lasers
9%
cooling
9%
solutes
9%
computers
9%
compatibility
9%
measured values
9%
ferritic steels
9%
austenite
9%
electron microscopy
9%
electron microprobe analysis
9%
Keyphrases
Austenitic Stainless Steel Weld
100%
Microsegregation
100%
Pitting Corrosion Resistance
100%
Welding Speed
55%
Solidification Parameters
33%
Micro-macro
22%
Macroscopic Model
22%
Austenitic Stainless Steel
11%
Stainless Steel Grades
11%
Interdendritic Region
11%
Shape Variation
11%
Ferritic
11%
Austenitic
11%
Austenite
11%
Electron Microscopy
11%
Cooling Rate
11%
Weld Pool Geometry
11%
Computer-aided
11%
Speed Range
11%
Computer Model
11%
Electron Probe Microanalyzer
11%
Laser Process
11%
Analytical Calculation
11%
Solute Redistribution
11%
Space Measurement
11%
Solidification Mode
11%
Microscopic Model
11%
Weld Shape
11%
Dendrite Core
11%
Dendrite Arm Spacing
11%
Pitting Corrosion Test
11%
Good Compatibility
11%
Solidification Behavior
11%
Microsimulation
11%
Microscopic Modeling
11%
Speed Mode
11%
Weakest Link
11%
Microstructural Investigation
11%
Austenitic Stainless Steel Weld Metal
11%
Dendrite Tip
11%
Material Science
Corrosion Resistance
100%
Pitting Corrosion
100%
Austenitic Steel
100%
Solidification
80%
Weld Metal
10%
Austenite
10%
Electron Microscopy
10%
Electron Microprobe
10%
Phase Composition
10%
Engineering
Austenitic Stainless Steel
100%
Microsegregation
100%
Pitting Corrosion Resistance
100%
Good Agreement
11%
Pitting (Corrosion)
11%
Steel Grade
11%
Measured Value
11%
Experimental Investigation
11%
Austenite Phase
11%
Cooling Rate
11%
Pool Shape
11%
Macroscopic Model
11%
Array Comparative Genomic Hybridization
11%
Phase Composition
11%