Here we develop metamaterials to study the sequential, complex response of frustrated materials that are cyclically driven⁠. In particular, we focus on metamaterials that act as collections of hysteretic, bistable elements called hysterons⁠. We create hysterons in metamaterials by using local frustration at defects and by using a competition between two global, incompatible deformations modes⁠. We show how we can tune these hysterons, both by rational design and by using spatial gradients in the mechanical driving⁠. Then we show that collectively, our samples exhibit complex transition pathways, including those with avalanches, and study the role of hysteron interactions⁠. Finally, we explore how to control the frustration by local defects in so-called monoholar metamaterials⁠.

• elasticity
• metamaterial