Solidification of Containerless Undercooled Melts (PDF)
(Sprache: Englisch)
All metallic materials are prepared from the liquid state as their parent phase. Solidification is therefore one of the most important phase transformation in daily human life. Solidification is the transition from liquid to solid state of matter. The...
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All metallic materials are prepared from the liquid state as their parent phase. Solidification is therefore one of the most important phase transformation in daily human life. Solidification is the transition from liquid to solid state of matter. The conditions under which material is transformed determines the physical and chemical properties of the as-solidified body. The processes involved, like nucleation and crystal growth, are governed by heat and mass transport.
Convection and undercooling provide additional processing parameters to tune the solidification process and to control solid material performance from the very beginning of the production chain.
To develop a predictive capability for efficient materials production the processes involved in solidification have to be understood in detail.
This book provides a comprehensive overview of the solidification of metallic melts processed and undercooled in a containerless manner
by drop tube, electromagnetic and electrostatic levitation, and experiments in reduced gravity.
The experiments are accompanied by model calculations on the influence of thermodynamic and hydrodynamic conditions that control
selection of nucleation mechanisms and modify crystal growth development throughout the solidification process.
Convection and undercooling provide additional processing parameters to tune the solidification process and to control solid material performance from the very beginning of the production chain.
To develop a predictive capability for efficient materials production the processes involved in solidification have to be understood in detail.
This book provides a comprehensive overview of the solidification of metallic melts processed and undercooled in a containerless manner
by drop tube, electromagnetic and electrostatic levitation, and experiments in reduced gravity.
The experiments are accompanied by model calculations on the influence of thermodynamic and hydrodynamic conditions that control
selection of nucleation mechanisms and modify crystal growth development throughout the solidification process.
Inhaltsverzeichnis zu „Solidification of Containerless Undercooled Melts (PDF)“
Containerless undercooling of drops and droplets Computer aided experiments in containerless processing of materials Demixing of Cu-Co alloys showing a metastable miscibility gap Short range order in undercooled melts Influence of order in undercooled liquids on crystal nucleation Crystal nucleation in undercooled melts Phase field crystal modelling of homogeneous and heterogeneous crystal nucleation Effects of transient heat and mass transfer and competitive nucleation on phase selection in rapid solidification Nucleation of metastable phases in undercooled melts Nucleation within the mushy-zone Measurements of crystal growth velocities in undercooled melts of metals Measurements of crystal growth in undercooled melts of semiconductors Measurements of crystal growth dynamics in strong external magnetic fields Influence of convection on dendrite growth dynamics by AC + DC levitation technique Development of a numerical approach for modelling dendritic growth in EML of liquid metal drops Mesoscopic modelling of dendrite growth in undercooled melts Microscopic modelling of growth kinetics in undercooled melts Multiscale solidification modelling of EML processed samples Interaction of fine particles with dendrites in undercooled melts of semiconducting materials Quantitative analysis of alloy structures solidified under limited diffusion conditions
Autoren-Porträt
Dieter Herlach is leader of the group "Undercooling of Materials" and Senior Scientist at the Institute of Materials Physics in Space of the German Aerospace Center (DLR) in Cologne. He is full professor of physics at the Ruhr-University Bochum. Dieter Herlach has authored more than 300 scientific publications in refereed journals and organized sixteen conferences and symposia. He is author and editor of six books and member of the advisory board of Advanced Engineering Materials (Wiley-VCH). He was member of the advisory board of directors of the German Physical Society and deputy chairman of the German Society of Materials Science and Engineering. Two priority programs of the
German Research Foundation (DFG) and several European projects of the European Space Agency and the European Commission were coordinated by him. He was lead scientist for NASA Spacelab missions IML2 and MSL1 and granted as honorary professor of four Chinese Universities and Research Centers.
Douglas M. Matson is Vice Chairman and Associate Professor in the Mechanical Engineering Department at Tufts University, Medford MA, USA. He is an internationally recognized expert with over fifty peer reviewed articles in thermal manufacturing, machine design, materials processing, solidification research, and microgravity experimentation. He has organized five symposium, is the former president of the North Alabama Chapter of the American Society for Materials (ASM) and received an Erskine Fellowship at the University of Canterbury, Christchurch, New Zealand. He has served as lead scientist for the MSL-1 Spacelab mission and currently is the NASA facility scientist for the MSL-EML project aboard the International Space Station.
Bibliographische Angaben
- 2012, 1. Auflage, 554 Seiten, Englisch
- Herausgegeben: Dieter M. Herlach, Douglas M. Matson
- Verlag: Wiley-VCH
- ISBN-10: 3527647937
- ISBN-13: 9783527647934
- Erscheinungsdatum: 21.05.2012
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