Design of Architected Materials with Spinodal Topologies under Uncertainty for Improved Magnetic Performance
Abstract
We hypothesize that the magnetic properties of metallic components, including magnetic saturation, coercivity, and Curie temperature, can be improved if their structural architectures are designed in the form of an ST. This hypothesis is motivated by our preliminary work on designing STs and other studies on spinodal decomposition and the design of architected materials. We will verify our hypothesis by developing a computational framework, which will be validated by the measurements of 3-D printed STs and will be capable of investigating the (i) micro-scale magnetic response of the polycrystalline material, (ii) meso-scale magnetic response as a function of ST architectures, and (iii) multi-scale design problem to improve the performance.
Document Details
- Document Type
- DoD Grant Award
- Publication Date
- Feb 06, 2025
- Source ID
- FA95502410154
Entities
People
- Pınar Acar
Organizations
- Air Force Office of Scientific Research
- United States Air Force
- Virginia Tech