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RESEARCH PRODUCT
Thermoelectric current and magnetic field interaction influence on the structure of directionally solidified Sn-10 wt.%Pb alloy
Imants KaldreJacqueline EtayL. BuliginsAndris BojarevicsYves Fautrellesubject
Materials scienceScanning electron microscopeAlloy02 engineering and technologyengineering.material01 natural scienceslaw.inventionCondensed Matter::Materials ScienceDendrite (crystal)Optical microscopelaw0103 physical sciencesThermoelectric effectMaterials ChemistryComposite material010302 applied physicsMechanical EngineeringMetallurgyMetals and Alloys[CHIM.MATE]Chemical Sciences/Material chemistry021001 nanoscience & nanotechnologyMicrostructureMagnetic fieldTemperature gradientMechanics of Materialsengineering0210 nano-technologydescription
International audience; In this experimental work Sn-10 wt.% Pb alloy is directionally solidified in Bridgman setup at various growth velocities (from 0.5 mu m/s to 20 mu m/s) under transverse 0.4 T magnetic field. Temperature gradient of 8 K/mm is maintained perpendicular to the solidification direction during experiments. Liquid phase convection and its influence on the structure and segregation of an alloy, caused by magnetic field and thermoelectric current interaction (thermoelectromagnetic convection or TEMC) is studied experimentally and estimated theoretically in this work. Detailed velocity order of magnitude estimation is carried out. Besides optical microscopy, component distribution along the diameter of the sample is quantitatively measured by scanning electron microscopy. Results show that significant influence on the macrosegregation and dendrite spacing of a metallic alloy is achieved if sample is solidified with applied transverse magnetic field at low solidification velocity. (C) 2013 Elsevier B.V. All rights reserved.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2013-09-01 |