The Science of Entropy Stabilized Ultra-High Temperature Materials
Abstract
Outcomes include: 1) Fully validated ab initio/CALPHAD databases open to the research community for predicting new EEUHTCs; 2) Set of bulk EEUHTCs characterized against melting point, oxidation resistance and kinetics, thermal shock and conductivity; 3) New interatomic potentials for modeling multi-component ceramics available to the research community; 4) New protocols and procedures for rapidly measuring properties of possible EEUHTCs using film technology; 5) New methods and protocols for bulk synthesis of EEUHTCs that depend on composition and properties; and 6) New insights into atomics origin of thermal shock and conductivity as related to microstructure.
Document Details
- Document Type
- DoD Grant Award
- Publication Date
- Aug 12, 2016
- Source ID
- N000141512863
Entities
People
- Don Brenner
Organizations
- North Carolina State University
- Office of Naval Research
- United States Navy