An elastomeric ionic hydrogel sensor for large strains

Prakash Manandhar; P D Calvert; J R Buck

doi:10.1109/NEBC.2011.5778606

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Conference proceeding

An elastomeric ionic hydrogel sensor for large strains

Prakash Manandhar, P D Calvert and J R Buck

2011 IEEE 37th Annual Northeast Bioengineering Conference (NEBEC), pp.1-2

04/2011

DOI: https://doi.org/10.1109/NEBC.2011.5778606

Abstract

Copper

Electrodes

Fabrics

Impedance

Robot sensing systems

Strain

An elastomeric hydrogel membrane made of an epoxy-amine network is demonstrated to be a linear strain sensor for large strains up to 20%. Sodium chloride is added in the gel to maintain conductivity at a relatively dry state. The elastic and electrical response are both shown to be linear. Water loss from the hydrogel due to evaporation from the surface is slow. This results in a trend in the impedance of the sensor which can be easily corrected by simple signal processing. A prototype sleeve that uses these sensors for proprioceptive sensing of joint angle motion on a robotic arm is demonstrated as a potential application.

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Title: An elastomeric ionic hydrogel sensor for large strains
Creators: Prakash Manandhar - University of Massachusetts Dartmouth
P D Calvert - University of Massachusetts Dartmouth
J R Buck - University of Massachusetts Dartmouth
Publication Details: 2011 IEEE 37th Annual Northeast Bioengineering Conference (NEBEC), pp.1-2
Publisher: IEEE
Number of pages: 2
Language: English
Academic Unit: Department of Electrical and Computer Engineering
Resource Type: Conference proceeding
ISBN: 9781612848273; 1612848273; 1612848281; 9781612848266; 9781612848280; 1612848265
Record Identifier: 9914419643801301

An elastomeric ionic hydrogel sensor for large strains

Abstract

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