Transport Phenomena in Materials Processing and ManufacturingAmerican Society of Mechanical Engineers, 1996 - Heat |
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1 page matching "Laser processing of thin films and microstructures" in this book
Contents
LASERMATERIALS PROCESSING | 39 |
TRANSPORT PHENOMENA IN CRYSTAL GROWTH SOLIDIFICATION | 63 |
MULTIPHASE FLOW AND HEAT TRANSFER IN MATERIALS PROCESSING | 183 |
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ampoule analysis boundary conditions calcite calculated ceramic coating coefficient computational convection cooling cylindrical deformation density deposition desorption diameter dimensionless discharge distance domain droplet dynamic effect electron emissivity erosion eutectic excimer laser experimental fiber Figure film thickness flow field fluence fluid flow free surface front velocity function furnace grid heat flux heat transfer HTD-Vol Ikegawa increases initial interface irradiation isotherm Joule heating laser beam laser fluence laser pulse layer liquid magnetic Materials Processing measured mechanism melt metal method micromachining micromodel nondimensional numerical simulation obtained optical parameters particle phase plasma polyimide polymer pool corner predicted pressure radiation radiative radius region shown in Fig shows solid solidification solution spray sticking coefficient substrate surface tension temperature distribution temperature field thermal conductivity thermocouple thin film Transport Phenomena velocity viscosity weld pool width wire workpiece Young-Laplace equation zone