Modeling the physical constraints of latch mediated, spring actuated systems

Mark Ilton; Andres Cook; Nicholas Heller; S. N. Patek; Alfred Crosby; Sarah Bergbreiter; Emanuel Azizi; Gregory P. Sutton; Sarah Longo; Sathvik Divi; Crystal Reynaga; Jeffrey Olberding; Ryan St Pierre; Suzanne Cox

Modeling the physical constraints of latch mediated, spring actuated systems

ORAL

Abstract

Certain plants and animals utilize elastic structures made of biomaterials to actuate rapid movements. In some of the most extreme cases, which inclues mantis shrimp and trap-jaw ants, a latching mechanism is used to control the spatio-temporal flow of energy from the organism to their environment. In this work, we model the physical constraints of latch mediated, spring actuated systems. An integrated approach rooted in physical principles that includes the loading and release of energy from these systems is presented. This approach reveals the inherent tunability of these systems, and is applicable to both biological and synthetic systems. We identify critical transitions that depend on the materials properties and geometry of the spring and latch components. The resulting kinetic energy output of these systems is ultimately limited by physical constraints placed on the organism by interaction with their environment and their control dynamics.

^*This material is based upon work supported by the U.S. Army Research Laboratory and the U.S. Army Research Office under contract/grant number W911NF-15-1-0358

March 7, 2019, 12:51 PM – March 7, 2019, 1:03 PM

Presenters

Mark Ilton
- Harvey Mudd College
- Department of Physics, Harvey Mudd College

Authors

Mark Ilton
- Harvey Mudd College
- Department of Physics, Harvey Mudd College
Andres Cook
- Harvey Mudd College
Nicholas Heller
- Harvey Mudd College
S. N. Patek
- Duke University
Alfred Crosby
- University of Massachusetts Amherst
- Polymer Science and Engineering, University of Massachusetts Amherst
- Polymer Science and Engineering Department, University of Massachusetts Amherst
- Polymer Science and Engineering, Univ of Mass - Amherst
- Polymer Science and Engineering, UMass Amherst
- Polymer Science and Engineering, University of Massachusetts
- Polymer Science and Engineering, University of Massachusetts, Amherst
Sarah Bergbreiter
- Carnegie Mellon University
- Mechanical Engineering Department, Carnegie Mellon University
Emanuel Azizi
- University of California Irvine
Gregory P. Sutton
- University of Bristol
Sarah Longo
- Duke University
Sathvik Divi
- Carnegie Mellon University
Crystal Reynaga
- Duke University
Jeffrey Olberding
- University of California Irvine
Ryan St Pierre
- Carnegie Mellon University
Suzanne Cox
- Penn State University