Enhanced shape memory and superelasticity in small-volume ceramics: a perspective on the controlling factors

Author(s)

Zeng, Xiaomei; Du, Zehui; Schuh, Christopher A; Gan, Chee Lip

Abstract

Copyright © Materials Research Society 2017. Shape memory ceramics show potential for energy damping and actuation applications. In particular, small-scale structures of zirconia-based ceramics demonstrate significantly enhanced shape memory and superelastic properties compared with their bulk counterparts, mainly because an oligocrystalline or single-crystal microscale structure reduces mismatch stresses amongst grains. In this Prospective article, we review recent experiments that explore the shape memory properties of small-scale zirconia-based ceramics, including the effects of composition, sample and grain size, and cyclic loading. These factors are reviewed with an eye toward rendering shape memory ceramics more useful in future applications.

Date issued

2017

URI

https://hdl.handle.net/1721.1/134678

Department

Massachusetts Institute of Technology. Department of Materials Science and Engineering

Journal

MRS Communications

Publisher

Cambridge University Press (CUP)