A Face-Shear Mode Piezoelectric Array Sensor for Elasticity and Force Measurement

A Face-Shear Mode Piezoelectric Array Sensor for Elasticity and Force Measurement

We present the development of a 6 × 6 piezoelectric array sensor for measuring elasticity and force. The proposed sensor employs an impedance measurement technique, sensing the acoustic load impedance of a target by measuring the electrical impedance shift of face-shear mode PMN−P...

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Bibliographic Details
Main Authors: Kyungrim Kim, Taeyang Kim, Jinwook Kim, Xiaoning Jiang
Format: Article
Language:English
Published: MDPI AG 2020-01-01
Series:Sensors
Subjects:
piezoelectric array sensor
elasticity sensor
force sensor
face-shear mode
pmn–pt
Online Access:https://www.mdpi.com/1424-8220/20/3/604
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spelling doaj-d9eeecb28277450583a4a43e7b6bb7862020-11-25T01:46:20ZengMDPI AGSensors1424-82202020-01-0120360410.3390/s20030604s20030604A Face-Shear Mode Piezoelectric Array Sensor for Elasticity and Force MeasurementKyungrim Kim0Taeyang Kim1Jinwook Kim2Xiaoning Jiang3Department of Mechanical and Aerospace Engineering, North Carolina State University, Raleigh, NC 27695, USADepartment of Mechanical and System Engineering, Korea Military Academy, Seoul 01805, KoreaJoint Department of Biomedical Engineering, The University of North Carolina at Chapel Hill and North Carolina State University, Chapel Hill, NC 27599, USADepartment of Mechanical and Aerospace Engineering, North Carolina State University, Raleigh, NC 27695, USAWe present the development of a 6 × 6 piezoelectric array sensor for measuring elasticity and force. The proposed sensor employs an impedance measurement technique, sensing the acoustic load impedance of a target by measuring the electrical impedance shift of face-shear mode PMN−PT (lead magnesium niobate−lead titanate) single crystal elements. Among various modes of PMN−PT single crystals, the face-shear mode was selected due to its especially high sensitivity to acoustic loads. To verify the elasticity sensing performance, gelatin samples with different elastic moduli were prepared and tested. For the force measurement test, different magnitudes of force were loaded to the sensing layer whose acoustic impedance was varied with applied forces. From the experimental results, the fabricated sensor showed an elastic stiffness sensitivity of 23.52 Ohm/MPa with a resolution of 4.25 kPa and contact force sensitivity of 19.27 Ohm/N with a resolution of 5.19 mN. In addition, the mapping experiment of elasticity and force using the sensor array was successfully demonstrated.https://www.mdpi.com/1424-8220/20/3/604piezoelectric array sensorelasticity sensorforce sensorface-shear modepmn–pt
collection DOAJ
language English
format Article
sources DOAJ
author Kyungrim Kim
Taeyang Kim
Jinwook Kim
Xiaoning Jiang
spellingShingle Kyungrim Kim
Taeyang Kim
Jinwook Kim
Xiaoning Jiang
A Face-Shear Mode Piezoelectric Array Sensor for Elasticity and Force Measurement
Sensors
piezoelectric array sensor
elasticity sensor
force sensor
face-shear mode
pmn–pt
author_facet Kyungrim Kim
Taeyang Kim
Jinwook Kim
Xiaoning Jiang
author_sort Kyungrim Kim
title A Face-Shear Mode Piezoelectric Array Sensor for Elasticity and Force Measurement
title_short A Face-Shear Mode Piezoelectric Array Sensor for Elasticity and Force Measurement
title_full A Face-Shear Mode Piezoelectric Array Sensor for Elasticity and Force Measurement
title_fullStr A Face-Shear Mode Piezoelectric Array Sensor for Elasticity and Force Measurement
title_full_unstemmed A Face-Shear Mode Piezoelectric Array Sensor for Elasticity and Force Measurement
title_sort face-shear mode piezoelectric array sensor for elasticity and force measurement
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2020-01-01
description We present the development of a 6 × 6 piezoelectric array sensor for measuring elasticity and force. The proposed sensor employs an impedance measurement technique, sensing the acoustic load impedance of a target by measuring the electrical impedance shift of face-shear mode PMN−PT (lead magnesium niobate−lead titanate) single crystal elements. Among various modes of PMN−PT single crystals, the face-shear mode was selected due to its especially high sensitivity to acoustic loads. To verify the elasticity sensing performance, gelatin samples with different elastic moduli were prepared and tested. For the force measurement test, different magnitudes of force were loaded to the sensing layer whose acoustic impedance was varied with applied forces. From the experimental results, the fabricated sensor showed an elastic stiffness sensitivity of 23.52 Ohm/MPa with a resolution of 4.25 kPa and contact force sensitivity of 19.27 Ohm/N with a resolution of 5.19 mN. In addition, the mapping experiment of elasticity and force using the sensor array was successfully demonstrated.
topic piezoelectric array sensor
elasticity sensor
force sensor
face-shear mode
pmn–pt
url https://www.mdpi.com/1424-8220/20/3/604
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AT taeyangkim afaceshearmodepiezoelectricarraysensorforelasticityandforcemeasurement
AT jinwookkim afaceshearmodepiezoelectricarraysensorforelasticityandforcemeasurement
AT xiaoningjiang afaceshearmodepiezoelectricarraysensorforelasticityandforcemeasurement
AT kyungrimkim faceshearmodepiezoelectricarraysensorforelasticityandforcemeasurement
AT taeyangkim faceshearmodepiezoelectricarraysensorforelasticityandforcemeasurement
AT jinwookkim faceshearmodepiezoelectricarraysensorforelasticityandforcemeasurement
AT xiaoningjiang faceshearmodepiezoelectricarraysensorforelasticityandforcemeasurement
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