Condensed Matter Seminar: Memory and aging from coupling between elastic instabilities in thin crumpled sheets

Yoav Lahini, TAU

14 November 2022, 11:00 
Kaplun Building, Flekser Hall 118 
Condensed Matter Seminar

Zoom: https://tau-ac-il.zoom.us/j/87426359968

 

Abstract:

Crumpling an ordinary thin sheet transforms it into a complex structure with unusual mechanical behaviors, such as enhanced rigidity, emission of crackling noise, slow relaxations, and a range of mechanical memory effects. We describe research focused on understanding these emergent behaviors, reminiscent of those exhibited by amorphous and glassy systems, and their relation to the geometrical structure of the crumpled sheet.

 

Using a combination of global mechanical measurements, local probing, acoustic measurements, and 3D imaging, we build a mesoscopic description of the mechanics of crumpled thin sheets. The global measurements reveal memory effects, including hysteresis, memory of largest strain, and return point memory, as well as clear signatures of underlying intermittent dynamics. Intermittent dynamics are also observed during the slow, logarithmic aging of crumpled sheets under load. In the latter, however, the intermittent events occur in highly correlated, scale-free avalanches. Complimentary local measurements reveal that both memory and aging behaviors emerge from the collective dynamics of mesoscopic, bistable elements within the sheet: localized geometric instabilities that act as hysteretic, two-state degrees of freedom. 

 

Based on this picture, we develop a numerical model of a disordered network of bistable elastic elements that corroborates all our findings: hysteresis, intermittencies, memory formation, return point memory, logarithmic aging, and avalanches. The model highlights the role of interactions and frustration between instabilities in driving these behaviors. The emerging picture is of a disordered system with a complex energy landscape, reminiscent of a mechanical spin-glass, that self-organizes to a state which lies on the verge of instability. 
 

 

 

Event Organizer: Dr. Yohai Bar Sinai

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