![Lightweight and geometrically complex ceramics derived from 4D printed shape memory precursor with reconfigurability and programmability for sensing and actuation applications - ScienceDirect Lightweight and geometrically complex ceramics derived from 4D printed shape memory precursor with reconfigurability and programmability for sensing and actuation applications - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S1385894722061356-ga1.jpg)
Lightweight and geometrically complex ceramics derived from 4D printed shape memory precursor with reconfigurability and programmability for sensing and actuation applications - ScienceDirect
![Enhanced shape memory and superelasticity in small-volume ceramics: a perspective on the controlling factors | MRS Communications | Cambridge Core Enhanced shape memory and superelasticity in small-volume ceramics: a perspective on the controlling factors | MRS Communications | Cambridge Core](https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20171228043427532-0772:S2159685917000994:S2159685917000994_fig1g.jpeg?pub-status=live)
Enhanced shape memory and superelasticity in small-volume ceramics: a perspective on the controlling factors | MRS Communications | Cambridge Core
DIRECT ELECTRICAL ACTIVATION OF THE SHAPE MEMORY EFFECT: New research explores a zirconia-based shape memory ceramic that exhibits a unique type of electrically triggered martensitic transformation. - Document - Gale Academic OneFile
Electric-field-recoverable large shape memory in BNT-based lead-free ceramics - Journal of Materials Chemistry C (RSC Publishing)
![Shape Memory Materials Analysis and Research Tool (SM2ART): Finding Data Anomalies and Trends | Shape Memory and Superelasticity Shape Memory Materials Analysis and Research Tool (SM2ART): Finding Data Anomalies and Trends | Shape Memory and Superelasticity](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs40830-023-00457-7/MediaObjects/40830_2023_457_Fig21_HTML.png)
Shape Memory Materials Analysis and Research Tool (SM2ART): Finding Data Anomalies and Trends | Shape Memory and Superelasticity
![Exploding and weeping ceramics provide path to new shape-shifting material | University of Minnesota Exploding and weeping ceramics provide path to new shape-shifting material | University of Minnesota](https://twin-cities.umn.edu/sites/twin-cities.umn.edu/files/figure2%20weeping_equidistance%20sequence%20900x373.jpg)
Exploding and weeping ceramics provide path to new shape-shifting material | University of Minnesota
![Enhanced shape memory and superelasticity in small-volume ceramics: a perspective on the controlling factors | MRS Communications | Cambridge Core Enhanced shape memory and superelasticity in small-volume ceramics: a perspective on the controlling factors | MRS Communications | Cambridge Core](https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary-alt:20171228043700-71416-mediumThumb-S2159685917000994_fig4g.jpg?pub-status=live)
Enhanced shape memory and superelasticity in small-volume ceramics: a perspective on the controlling factors | MRS Communications | Cambridge Core
![Engineers develop a new kind of shape-memory material | MIT News | Massachusetts Institute of Technology Engineers develop a new kind of shape-memory material | MIT News | Massachusetts Institute of Technology](https://news.mit.edu/sites/default/files/images/202210/MIT-Shape-Memory-01-PRESS.jpg)