BRC FY17 Topic 4: A Scientific Basis for Enhancing Manufacturability with Electrical Currents; PO. A. Makinen; Purdue Univisity, H. WANG

Abstract

ONR BAA N00014-16-S-BA10 WHITE PAPER SUBMISSIONONR Basic Research Challenge Topic 4A Scientific Basis for Enhanced Manufacturability with Electrical CurrentsAttention to: Dr. Antti Makinen (Materials Division, Office of Naval Research)Team Proposal Title:Exploring the fundamentals of field-induced mass transport phenomena during sinteringprocess of high temperature ceramics-A combined experimental and modeling effortPI: Dr. Haiyan Wang (Turner Professor of Engineering)School of Materials Engineering and School of Electrical and Computer Engineering, PurdueUniversity, hwang00@purdue.eduProject SummaryThe proposed team research combines experimental and modeling efforts to understand thefundamentals and kinetic mechanisms of field-induced mass transport phenomena during flashsintering process in high temperature ceramics (HTC) with the ultimate goal to design and processhighly dense HTC with excellent mechanical properties. The PIs propose to combine the novelceramic synthesis method with the unique in situ TEM, SEM and XRD characterizations. Theexperimental effort is coupled with the powerful multiscale modeling effort ranging from firstprinciple density function theory (DFT), molecular dynamic simulation (MD) to phase fieldmodeling to tackle the fundamentals in atomistic scale to mesoscale.

Document Details

Document Type

DoD Grant Award

Publication Date

Sep 26, 2018

Source ID

N000141712087

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