HIGH STRAIN SENSORS OF MULTI-WALLED CARBON NANOTUBES AND GRAPHITE FILMS PREPARED ON PRE-STRETCHED NATURAL RUBBER BY DRY SURFACE COATING

Conventional metallic strain sensors are flexible, but they can sustain maximum strains of only ~5%. There is a need for sensors that can bear high strains for multifunctional applications. In this study, we report stretchable and flexible high-strain sensors that consist of entangled and randomly d...

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Main Author:	Sreenivasulu Tadakaluru
Other Authors:	Assoc. Prof. Dr. Pisith Singjai
Format:	Theses and Dissertations
Language:	English
Published:	เชียงใหม่ : บัณฑิตวิทยาลัย มหาวิทยาลัยเชียงใหม่ 2020
Online Access:	http://cmuir.cmu.ac.th/jspui/handle/6653943832/69161
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Institution:	Chiang Mai University
Language:	English

id	th-cmuir.6653943832-69161
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spelling	th-cmuir.6653943832-691612020-07-30T01:23:32Z HIGH STRAIN SENSORS OF MULTI-WALLED CARBON NANOTUBES AND GRAPHITE FILMS PREPARED ON PRE-STRETCHED NATURAL RUBBER BY DRY SURFACE COATING ตัวรับรู้ความเครียดสูงของท่อนาโนคาร์บอนผนังหลายชั้นและฟิล์ม แกรไฟต์ที่เตรียมลงบนยางธรรมชาติที่ถูกดึงก่อนโดยการเคลือบผิวแห้ง Sreenivasulu Tadakaluru Assoc. Prof. Dr. Pisith Singjai Asst. Prof. Dr. Supab Shoopun Prof. Dr. Somchai Thongtem Asst. Prof. Dr. Jantrawan Phumchusak Conventional metallic strain sensors are flexible, but they can sustain maximum strains of only ~5%. There is a need for sensors that can bear high strains for multifunctional applications. In this study, we report stretchable and flexible high-strain sensors that consist of entangled and randomly distributed multiwall carbon nanotubes or graphite flakes on a natural rubber substrate. Carbon nanotubes/graphite flakes were sandwiched in natural rubber to produce these high-strain sensors. Using field emission scanning electron microscopy, the morphology of the films for both the carbon nanotube and graphite sensors were assessed under different strain conditions (0% and 400% strain). As the strain was increased, the films fractured, resulting in an increase in the electrical resistance of the sensor; this change was reversible. Strains of up to 246% (graphite sensor) and 620% (carbon nanotube sensor) were measured; these values are respectively ~50 and ~120 times greater than those of conventional metallic strain sensors. Polymer and nanomaterials based piezoresistive sensors have acquired significant attraction because of their multifunctional applications. Though few researchers achieved higher strain limit than the commercial metallic strain sensors, the response curves of those sensors were highly nonlinear. The highest degree of nonlinearity of sensor’s response curves is a serious factor that may limit practical applications. In this present work we report a kind of strain sensors made by coating, multi-walled carbon nanotubes on natural rubber tubes. The relative change in the resistance of the sensors increased linearly with the applied stain. These polymer based multi-walled carbon nanotubes sensors showed greater linear response as well as higher strain limit (720%). By adding graphite flakes to the multi-walled carbon nanotubes the sensitivity of the sensors was varied. The effect of the CNT-graphite weight ratio on sensor’s sensitivity and strain limit was also investigated. 2020-07-30T01:23:32Z 2020-07-30T01:23:32Z 2014-09 Thesis http://cmuir.cmu.ac.th/jspui/handle/6653943832/69161 en เชียงใหม่ : บัณฑิตวิทยาลัย มหาวิทยาลัยเชียงใหม่
institution	Chiang Mai University
building	Chiang Mai University Library
continent	Asia
country	Thailand Thailand
content_provider	Chiang Mai University Library
collection	CMU Intellectual Repository
language	English
description	Conventional metallic strain sensors are flexible, but they can sustain maximum strains of only ~5%. There is a need for sensors that can bear high strains for multifunctional applications. In this study, we report stretchable and flexible high-strain sensors that consist of entangled and randomly distributed multiwall carbon nanotubes or graphite flakes on a natural rubber substrate. Carbon nanotubes/graphite flakes were sandwiched in natural rubber to produce these high-strain sensors. Using field emission scanning electron microscopy, the morphology of the films for both the carbon nanotube and graphite sensors were assessed under different strain conditions (0% and 400% strain). As the strain was increased, the films fractured, resulting in an increase in the electrical resistance of the sensor; this change was reversible. Strains of up to 246% (graphite sensor) and 620% (carbon nanotube sensor) were measured; these values are respectively ~50 and ~120 times greater than those of conventional metallic strain sensors. Polymer and nanomaterials based piezoresistive sensors have acquired significant attraction because of their multifunctional applications. Though few researchers achieved higher strain limit than the commercial metallic strain sensors, the response curves of those sensors were highly nonlinear. The highest degree of nonlinearity of sensor’s response curves is a serious factor that may limit practical applications. In this present work we report a kind of strain sensors made by coating, multi-walled carbon nanotubes on natural rubber tubes. The relative change in the resistance of the sensors increased linearly with the applied stain. These polymer based multi-walled carbon nanotubes sensors showed greater linear response as well as higher strain limit (720%). By adding graphite flakes to the multi-walled carbon nanotubes the sensitivity of the sensors was varied. The effect of the CNT-graphite weight ratio on sensor’s sensitivity and strain limit was also investigated.
author2	Assoc. Prof. Dr. Pisith Singjai
author_facet	Assoc. Prof. Dr. Pisith Singjai Sreenivasulu Tadakaluru
format	Theses and Dissertations
author	Sreenivasulu Tadakaluru
spellingShingle	Sreenivasulu Tadakaluru HIGH STRAIN SENSORS OF MULTI-WALLED CARBON NANOTUBES AND GRAPHITE FILMS PREPARED ON PRE-STRETCHED NATURAL RUBBER BY DRY SURFACE COATING
author_sort	Sreenivasulu Tadakaluru
title	HIGH STRAIN SENSORS OF MULTI-WALLED CARBON NANOTUBES AND GRAPHITE FILMS PREPARED ON PRE-STRETCHED NATURAL RUBBER BY DRY SURFACE COATING
title_short	HIGH STRAIN SENSORS OF MULTI-WALLED CARBON NANOTUBES AND GRAPHITE FILMS PREPARED ON PRE-STRETCHED NATURAL RUBBER BY DRY SURFACE COATING
title_full	HIGH STRAIN SENSORS OF MULTI-WALLED CARBON NANOTUBES AND GRAPHITE FILMS PREPARED ON PRE-STRETCHED NATURAL RUBBER BY DRY SURFACE COATING
title_fullStr	HIGH STRAIN SENSORS OF MULTI-WALLED CARBON NANOTUBES AND GRAPHITE FILMS PREPARED ON PRE-STRETCHED NATURAL RUBBER BY DRY SURFACE COATING
title_full_unstemmed	HIGH STRAIN SENSORS OF MULTI-WALLED CARBON NANOTUBES AND GRAPHITE FILMS PREPARED ON PRE-STRETCHED NATURAL RUBBER BY DRY SURFACE COATING
title_sort	high strain sensors of multi-walled carbon nanotubes and graphite films prepared on pre-stretched natural rubber by dry surface coating
publisher	เชียงใหม่ : บัณฑิตวิทยาลัย มหาวิทยาลัยเชียงใหม่
publishDate	2020
url	http://cmuir.cmu.ac.th/jspui/handle/6653943832/69161
_version_	1681752607693996032

HIGH STRAIN SENSORS OF MULTI-WALLED CARBON NANOTUBES AND GRAPHITE FILMS PREPARED ON PRE-STRETCHED NATURAL RUBBER BY DRY SURFACE COATING

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