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About this Abstract
Meeting	2023 TMS Annual Meeting & Exhibition
Symposium	Powder Materials Processing and Fundamental Understanding
Presentation Title	Multi-scale Modeling of the Electric Field Assisted Sintering Process
Author(s)	Larry Aagesen, Stephanie Pitts, Lucas Robinson, R. Edwin Garcia
On-Site Speaker (Planned)	Larry Aagesen
Abstract Scope	The electric field assisted sintering (EFAS) process involves tightly coupled physics that influence microstructural evolution in the particles being compacted. It is also an inherently multi-scale phenomenon, with the microstructure of the compact influencing the subsequent engineering-scale response of the sintering system. To improve understanding of how processing parameters influence microstructural evolution, we have developed a multi-scale modeling approach that couples a continuum-level model of the sintering system with a phase-field model for microstructural evolution of particles within the compact. The phase-field model couples the effect of chemical and electrical driving forces on microstructural evolution and includes the effect of charged defect segregation to surfaces and grain boundaries; this segregation leads to enhanced defect transport and heat generation at these interfaces in response to applied electric field. The effect of enhanced heat generation on particle neck growth and the influence of microstructural evolution on the engineering-scale model are demonstrated.
Proceedings Inclusion?	Planned:
Keywords	Powder Materials, Modeling and Simulation, Computational Materials Science & Engineering

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