Texture mediated grain boundary network design in two dimensions

Author(s)

Johnson, Oliver K.; Schuh, Christopher A

Abstract

While materials design in the context of texture dependent properties is well developed, theoretical tools for microstructure design in the context of grain boundary sensitive properties have not yet been established. In the present work, we present an invertible relationship between texture and grain boundary network structure for the case of spatially uncorrelated two-dimensional textures. By exploiting this connection, we develop mathematical tools that permit the rigorous optimization of grain boundary network structure. Using a specific multi-objective materials design case study involving elastic, plastic and kinetic properties, we illustrate the utility of this texture mediated approach to grain boundary network design. We obtain a microstructure that minimizes grain boundary network diffusivity while simultaneously improving yield strength by an amount equal to half of the theoretically possible range. The theoretical tools developed here could complement experimental grain boundary engineering efforts to help accelerate the discovery of materials with improved performance.

Date issued

2016-05

URI

http://hdl.handle.net/1721.1/112649

Department

Massachusetts Institute of Technology. Department of Materials Science and Engineering

Journal

Journal of Materials Research

Publisher

Cambridge University Press

Citation

Johnson, Oliver K., and Schuh, Christopher A. “Texture Mediated Grain Boundary Network Design in Two Dimensions.” Journal of Materials Research 31, 9 (May 2016): 1171–1184 © 2016 Materials Research Society

Version: Final published version

ISSN

0884-2914

2044-5326