INIS
manufacturing
100%
applications
100%
solidification
100%
pools
100%
modeling
100%
welding
100%
additives
100%
liquids
66%
cracking
57%
simulation
39%
velocity
39%
microstructure
30%
dendrites
27%
pressure drop
24%
zones
21%
welds
21%
segregation
21%
temperature gradients
18%
interfaces
15%
size
15%
prediction
12%
steels
12%
alloys
12%
increasing
9%
subcooling
9%
power
9%
finite element method
9%
comparative evaluations
9%
approximations
9%
growth
9%
physics
9%
solids
9%
mass balance
9%
solutes
6%
diffusion
6%
resources
6%
coalescence
6%
performance
6%
algorithms
6%
length
6%
vehicles
3%
feeding
3%
design
3%
grain refinement
3%
kinetics
3%
closures
3%
sulfur
3%
heat
3%
cooling
3%
lasers
3%
morphology
3%
refining
3%
reduction
3%
acceleration
3%
numerical solution
3%
values
3%
coupling
3%
weight
3%
processing
3%
anisotropy
3%
weldability
3%
calculation methods
3%
layers
3%
ductility
3%
freezing
3%
shape
3%
height
3%
permeability
3%
capture
3%
texture
3%
grain size
3%
accuracy
3%
isotherm
3%
equations
3%
errors
3%
automotive industry
3%
cost
3%
grids
3%
shrinkage
3%
strain rate
3%
concentration
3%
green function
3%
environment
3%
beams
3%
balances
3%
contraction
3%
deactivation
3%
Engineering
Application
100%
Melt Pool
100%
Solidification Modeling
100%
Solidification
100%
Additive Manufacturing
100%
Models
92%
Velocity
42%
Microstructure
38%
Welding
34%
Cracking Susceptibility
34%
Pressure Drop
30%
Phase Field
26%
Mushy Zone
26%
Welds
26%
Research
23%
Temperature Gradient
19%
Mesh Size
15%
Field Model
11%
Channel Structure
11%
Arm Spacing
11%
Alloy Composition
11%
Advanced High Strength Steel
11%
Requirement
11%
Field Method
11%
Finite Element Modeling
11%
Solidification Simulation
11%
Accurate Prediction
7%
Mass Balance
7%
Solute
7%
Growth Velocity
7%
Multiscale Modeling
7%
Physical Phenomena
7%
Performance
7%
Maximum Pressure
7%
Analytical Model
7%
Computational Resource
7%
Directional Solidification
7%
Prediction
7%
Algorithm
7%
Experiments
7%
Process Parameter
7%
Macroscopic
7%
Elements
7%
Coarse Mesh
3%
Environment
3%
Discretization
3%
Simulation Code
3%
Numerical Solution
3%
Load Balance
3%
Laser Beam
3%
Neighboring Grain
3%
Error
3%
Experimental Result
3%
Fine Mesh
3%
Diffusion Term
3%
Forming
3%
Heat Input
3%
Subdomains
3%
Mechanisms
3%
Concentration Profile
3%
Freezing Temperature
3%
Processing Condition
3%
Liquidus
3%
Good Agreement
3%
Solidification Shrinkage
3%
Channel Length
3%
Alloy
3%
Columnar Dendrite
3%
Liquid Pressure
3%
Fields
3%
Simulation Result
3%
Integration
3%
Computational Power
3%
Design
3%
Complexity
3%
Length Scale
3%
Experimental Finding
3%
Manufactured Sample
3%
Alloying Element
3%
Steel
3%
Temperature
3%
Tasks
3%
Tensile Loads
3%
Green Function
3%
Temperature Drop
3%
Strain Rate
3%
Mass Balance Equation
3%
Constant Temperature Gradient
3%
Accuracy
3%
Parallelism
3%
Computational Cost
3%
Reduction
3%
Multiscale
3%
Automotives
3%
Material Science
Three Dimensional Printing
100%
Solidification
100%
Liquid
63%
Velocity
39%
Temperature
27%
Welding
27%
Microstructure
21%
Alloy
12%
Phase Field Model
9%
High Strength Steels
9%
Solid
9%
Microstructure Modeling
9%
Finite Element Modeling
9%
Shrinkage
6%
Multi-Scale Modeling
6%
Tensile Loads
3%
TRIP Steel
3%
Materials
3%
Mechanical Strength
3%
Grain Size
3%
Laser
3%
Grain Refinement
3%
Permeability
3%
Strain Rate
3%
Ductility
3%
Alloying
3%
Weldability
3%
Morphology
3%
Anisotropy
3%
Liquid Interface
3%
Multilayer
3%
Keyphrases
Solidification Modeling
100%
CAFE Model
31%
Dendrite Tip
18%
Cellular Automaton Method
18%
Primary Dendrite Arm Spacing
18%
Welding Velocity
18%
Scheil-Gulliver
12%
Granular Model
12%
Channel Segregation
12%
Columnar Dendrite
6%
Capture Algorithms
6%
Solidified Microstructure
6%
Multicomponent Solidification
6%
Constant Temperature Gradient
6%
Solidification Pressure
6%
Frozen Temperature
6%