|About this Symposium
||MS&T23: Materials Science & Technology
||Integrated Computational Materials Engineering (ICME) for Ceramics and Ceramic Matrix Composites (CMCs) in Extreme Environments
||TMS: ICME Committee
||Paul Mason, Thermo-Calc Software Inc.
Amberlee Haselhuhn, ALMMII
James Chen, University of Buffalo
Alex Reichanadter, Hexagon Manufacturing Intelligence, Inc.
||This symposium will highlight the application of Integrated Computational Materials Engineering (ICME) to ceramics including high entropy ceramics and ceramic matrix composites (CMCs) subjected to extreme environment conditions including those induced in aerospace or space applications such as hypersonic flows.
Pertinent topics include but are not limited to:
- Unique challenges of ICME for ceramics and CMCs
- Prediction of processing-structure-properties-performance interactions across spatial and temporal timescales in the computational space
- Integrated simulations of ceramics and CMCs
- CALPHAD for ceramics and CMCs
- Artificial intelligence including machine learning and deep learning applications
- Computational methods to simulate manufacturing processes as well as defect formation and distribution
- Prediction of oxidation resistance, erosion resistance, and joining performance
- ICME design of new ceramics and CMCs for extreme environments
- Connection of ICME workflows to physical results