This session is devoted to advancing fundamental understanding of crystallization in glasses and its application in glass-ceramics and related materials. The session will cover both experimental, analytical/characterization, as well as numerical/modeling aspects of nucleation and growth in glass forming materials. Topics to be covered include, but are not limited to the following:
- Theoretical, simulation, and experimental studies of nucleation and crystal growth in glasses and liquids
- The role of glass composition, structure, and nucleating agents on crystallization
- Amorphous phase separation and its role in influencing crystallization
- Novel methods and characterization techniques (ex-situ, in-situ) to understand crystallization
- Modeling and simulation techniques to elucidate crystallization Glass forming ability of compositions
- Crystallization phenomena in organic and metallic materials
- Novel processing techniques for glass-ceramics
- Microstructure/property relationships in glass-ceramics
- Predicting glass-ceramic generation
- Applications of glass-ceramics
Organizers:
- Edgar Zanotto, Federal University of Sao Carlos, Brazil, dedz@ufscar.br
- Matthew McKenzie, Corning, USA, McKenzieME@corning.com
- Kisa Ranasinghe, Kennesaw State University, USA, kranasin@kennesaw.edu
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