INVESTIGATION OF SOFT ELASTOMERIC CAPACITOR FOR THE MONITORING OF LARGE ANGULAR MOTIONS

Han Liu; Simon Laflamme; Sdiq Anwar Taher; Jong Hyun Jeong; Jian Li; Caroline Bennett; William N. Collins; David J. Eisenmann; Austin Downey; Paul Ziehl; Hongki Jo

doi:10.32548/2023.me-04294

INVESTIGATION OF SOFT ELASTOMERIC CAPACITOR FOR THE MONITORING OF LARGE ANGULAR MOTIONS

Han Liu, Simon Laflamme, Sdiq Anwar Taher, Jong Hyun Jeong, Jian Li, Caroline Bennett, William N. Collins, David J. Eisenmann, Austin Downey, Paul Ziehl, Hongki Jo

Research output: Contribution to specialist publication › Article

Abstract

Angular motion measurement using commercial sensing technologies can be challenging due to the nonlinearity of the motion and the combination of translational, oscillatory, and rotational behaviors. Recent advances in hyperelastic and self-sensing materials have facilitated the development of flexible electronics, enabling robust and cost-effective angular motion sensing systems. The authors have recently proposed a flexible strain sensor termed corrugated soft elastomeric capacitor (cSEC). The cSEC is a thin-film, ultra-compliant, and scalable sensor that transduces geometric variations into a measurable change in capacitance. It is constituted by layering two conductive plates sandwiching a dielectric that is surfacecorrugated. In this paper, we study the use of the cSEC for angular motion sensing of a free rotational hinge, in which the cSEC was adhered onto the rotating area of the hinge subjected to an axial displacement generating clockwise and counterclockwise angular rotations.

Original language	English (US)
Pages	46-51
Number of pages	6
Volume	81
No	2
Specialist publication	Materials Evaluation
DOIs	https://doi.org/10.32548/2023.me-04294
State	Published - Feb 2023
Externally published	Yes

Keywords

angular motion sensing
bending strain
complex geometry
flexible strain gauge
out-of-plane deformation
strain monitoring
structural health monitoring

ASJC Scopus subject areas

General Materials Science
Mechanics of Materials
Mechanical Engineering

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title = "INVESTIGATION OF SOFT ELASTOMERIC CAPACITOR FOR THE MONITORING OF LARGE ANGULAR MOTIONS",

abstract = "Angular motion measurement using commercial sensing technologies can be challenging due to the nonlinearity of the motion and the combination of translational, oscillatory, and rotational behaviors. Recent advances in hyperelastic and self-sensing materials have facilitated the development of flexible electronics, enabling robust and cost-effective angular motion sensing systems. The authors have recently proposed a flexible strain sensor termed corrugated soft elastomeric capacitor (cSEC). The cSEC is a thin-film, ultra-compliant, and scalable sensor that transduces geometric variations into a measurable change in capacitance. It is constituted by layering two conductive plates sandwiching a dielectric that is surfacecorrugated. In this paper, we study the use of the cSEC for angular motion sensing of a free rotational hinge, in which the cSEC was adhered onto the rotating area of the hinge subjected to an axial displacement generating clockwise and counterclockwise angular rotations.",

keywords = "angular motion sensing, bending strain, complex geometry, flexible strain gauge, out-of-plane deformation, strain monitoring, structural health monitoring",

author = "Han Liu and Simon Laflamme and Taher, {Sdiq Anwar} and Jeong, {Jong Hyun} and Jian Li and Caroline Bennett and Collins, {William N.} and Eisenmann, {David J.} and Austin Downey and Paul Ziehl and Hongki Jo",

note = "Publisher Copyright: {\textcopyright} 2023 American Society for Nondestructive Testing.",

year = "2023",

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doi = "10.32548/2023.me-04294",

language = "English (US)",

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AU - Liu, Han

AU - Laflamme, Simon

AU - Taher, Sdiq Anwar

AU - Jeong, Jong Hyun

AU - Li, Jian

AU - Bennett, Caroline

AU - Collins, William N.

AU - Eisenmann, David J.

AU - Downey, Austin

AU - Ziehl, Paul

AU - Jo, Hongki

PY - 2023/2

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N2 - Angular motion measurement using commercial sensing technologies can be challenging due to the nonlinearity of the motion and the combination of translational, oscillatory, and rotational behaviors. Recent advances in hyperelastic and self-sensing materials have facilitated the development of flexible electronics, enabling robust and cost-effective angular motion sensing systems. The authors have recently proposed a flexible strain sensor termed corrugated soft elastomeric capacitor (cSEC). The cSEC is a thin-film, ultra-compliant, and scalable sensor that transduces geometric variations into a measurable change in capacitance. It is constituted by layering two conductive plates sandwiching a dielectric that is surfacecorrugated. In this paper, we study the use of the cSEC for angular motion sensing of a free rotational hinge, in which the cSEC was adhered onto the rotating area of the hinge subjected to an axial displacement generating clockwise and counterclockwise angular rotations.

AB - Angular motion measurement using commercial sensing technologies can be challenging due to the nonlinearity of the motion and the combination of translational, oscillatory, and rotational behaviors. Recent advances in hyperelastic and self-sensing materials have facilitated the development of flexible electronics, enabling robust and cost-effective angular motion sensing systems. The authors have recently proposed a flexible strain sensor termed corrugated soft elastomeric capacitor (cSEC). The cSEC is a thin-film, ultra-compliant, and scalable sensor that transduces geometric variations into a measurable change in capacitance. It is constituted by layering two conductive plates sandwiching a dielectric that is surfacecorrugated. In this paper, we study the use of the cSEC for angular motion sensing of a free rotational hinge, in which the cSEC was adhered onto the rotating area of the hinge subjected to an axial displacement generating clockwise and counterclockwise angular rotations.

KW - angular motion sensing

KW - bending strain

KW - complex geometry

KW - flexible strain gauge

KW - out-of-plane deformation

KW - strain monitoring

KW - structural health monitoring

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INVESTIGATION OF SOFT ELASTOMERIC CAPACITOR FOR THE MONITORING OF LARGE ANGULAR MOTIONS

Abstract

Keywords

ASJC Scopus subject areas

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