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Crystal growth during keyhole mode laser welding
H. L. Wei, J. W. Elmer,
T. DebRoy
Materials Science and Engineering
Research output
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Contribution to journal
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Article
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peer-review
104
Scopus citations
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Dive into the research topics of 'Crystal growth during keyhole mode laser welding'. Together they form a unique fingerprint.
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Keyphrases
Laser Welding
100%
Crystal Growth
100%
Columnar Grain
100%
Keyhole Mode
100%
Fusion Zone
66%
Grain Structure
66%
Temperature Distribution
33%
Computationally Efficient
33%
Topological Features
33%
Grain Growth
33%
Microstructure Evolution
33%
Weld Pool
33%
Welding Speed
33%
Thermal Cycling
33%
Spatially Variable
33%
Thermal History
33%
Interdependence
33%
Monte Carlo Method
33%
Heat Affected Zone
33%
Melt Pool
33%
Equiaxed Grain
33%
Zones Boundary
33%
Grain Growing
33%
Keyhole Welding
33%
Transient Thermal
33%
Grain Growth Model
33%
Structure Feature
33%
Undercooling
33%
Boundary Curvature
33%
Engineering
Laser Beam Welding
100%
Welds
100%
Fusion Zone
66%
Columnar Grain
66%
Transients
33%
Centerline
33%
Thermal Cycle
33%
Heat Affected Zone
33%
Melt Pool
33%
Thermal History
33%
Monte Carlo Approach
33%
Interdependence
33%
Material Science
Laser Beam Welding
100%
Crystal Microstructure
66%