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Heat transfer and fluid flow in laser microwelding
X. He, 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
134
Scopus citations
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Keyphrases
Laser Microwelding
100%
Cooling Rate
33%
Linear Laser
33%
Weld Dimension
16%
Yttrium Aluminum Garnet Laser
16%
304 Stainless Steel
16%
Temperature Penetration
16%
Weld Penetration
16%
Allowable Range
16%
Heat Transfer Mechanism
16%
Metal Particles
16%
Heat Transfer by Convection
16%
Liquid Velocity
16%
Micro-welding
16%
Fluid Flow Simulation
16%
Numerical Heat Transfer
16%
Pool Size
16%
Laser Spot
16%
Thermal Cycling
16%
Multiple Paths
16%
Temperature Evolution
16%
Heat Conduction Transfer
16%
Keyhole
16%
Metal Vapor
16%
Solidification Rate
16%
Numerical Transport
16%
Mushy Zone
16%
Physics
Temperature Gradients
100%
Yttrium-Aluminum Garnet
50%
Mushy Zone
50%
Transport Phenomena
50%
Dimensional Analysis
50%
Metal Vapor
50%
Metal Particle
50%
Engineering
Laser Microwelding
100%
Cooling Rate
33%
Thermal Cycle
16%
Solidification Rate
16%
Yttrium-Aluminum-Garnet
16%
Driving Force
16%
Pool Size
16%
304 Stainless Steel
16%
Mushy Zone
16%
Liquid Velocity
16%
Liquid Adjacent
16%
Chemical Engineering
Fluid Flow
100%
Material Science
304 Stainless Steel
50%
Solidification
50%