Underactuated fluidic control of a continuous multistable membrane

Ofek Peretz; Anand K. Mishra; Robert F. Shepherd; Amir D. Gat

doi:10.1073/pnas.1919738117

Underactuated fluidic control of a continuous multistable membrane

Ofek Peretz, Anand K. Mishra, Robert F. Shepherd, Amir D. Gat

Mechanical Engineering

Technion - Israel Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

This work addresses the challenge of underactuated pattern generation in continuous multistable structures. The examined configuration is a slender membrane which can concurrently sustain two different equilibria states, separated by transition regions, and is actuated by a viscous fluid. We first demonstrate the formation and motion of a single transition region and then sequencing of several such moving transition regions to achieve arbitrary patterns by controlling the inlet pressure of the actuating fluid. Finally, we show that nonuniform membrane properties, along with transient dynamics of the fluid, can be leveraged to directly snap through any segment of the membrane.

Original language	English
Pages (from-to)	5217-5221
Number of pages	5
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	117
Issue number	10
DOIs	https://doi.org/10.1073/pnas.1919738117
State	Published - 10 Mar 2020

Keywords

Bistability
Multistability
Soft actuators
Soft robotics
Viscous flow

All Science Journal Classification (ASJC) codes

General

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10.1073/pnas.1919738117

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title = "Underactuated fluidic control of a continuous multistable membrane",

abstract = "This work addresses the challenge of underactuated pattern generation in continuous multistable structures. The examined configuration is a slender membrane which can concurrently sustain two different equilibria states, separated by transition regions, and is actuated by a viscous fluid. We first demonstrate the formation and motion of a single transition region and then sequencing of several such moving transition regions to achieve arbitrary patterns by controlling the inlet pressure of the actuating fluid. Finally, we show that nonuniform membrane properties, along with transient dynamics of the fluid, can be leveraged to directly snap through any segment of the membrane.",

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AU - Peretz, Ofek

AU - Mishra, Anand K.

AU - Shepherd, Robert F.

AU - Gat, Amir D.

PY - 2020/3/10

Y1 - 2020/3/10

N2 - This work addresses the challenge of underactuated pattern generation in continuous multistable structures. The examined configuration is a slender membrane which can concurrently sustain two different equilibria states, separated by transition regions, and is actuated by a viscous fluid. We first demonstrate the formation and motion of a single transition region and then sequencing of several such moving transition regions to achieve arbitrary patterns by controlling the inlet pressure of the actuating fluid. Finally, we show that nonuniform membrane properties, along with transient dynamics of the fluid, can be leveraged to directly snap through any segment of the membrane.

AB - This work addresses the challenge of underactuated pattern generation in continuous multistable structures. The examined configuration is a slender membrane which can concurrently sustain two different equilibria states, separated by transition regions, and is actuated by a viscous fluid. We first demonstrate the formation and motion of a single transition region and then sequencing of several such moving transition regions to achieve arbitrary patterns by controlling the inlet pressure of the actuating fluid. Finally, we show that nonuniform membrane properties, along with transient dynamics of the fluid, can be leveraged to directly snap through any segment of the membrane.

KW - Bistability

KW - Multistability

KW - Soft actuators

KW - Soft robotics

KW - Viscous flow

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M3 - مقالة

C2 - 32094198

SN - 0027-8424

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JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 10

ER -

Underactuated fluidic control of a continuous multistable membrane

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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