Effect of rubber compound treatment and PTFE extension beam on piezoelectric energy harvester power density
Due to a number of advantages for small power applications (milliwatts), many researchers have begun to focus on usable energy harvesting from ambience. Over the years, to further expand the applications of vibration energy harvesting technology, many researchers have focused on how to improve the r...
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my.uniten.dspace-233752023-05-29T14:39:54Z Effect of rubber compound treatment and PTFE extension beam on piezoelectric energy harvester power density Resali M.S.M. Salleh H. 57189247722 24067645400 Due to a number of advantages for small power applications (milliwatts), many researchers have begun to focus on usable energy harvesting from ambience. Over the years, to further expand the applications of vibration energy harvesting technology, many researchers have focused on how to improve the reliability and efficiency of the harvester. This paper presents work on improving piezoelectric energy harvesters based on structural modifications. Two different strategies of structural modification are proposed for optimization by using additional beam structure and additional rubber compound layer on the origin of the piezoelectric beam. This work summarizes the optimum performance of the strategies at a resonance frequency of 50�2 Hz at 0.25g ms-2 of acceleration. The parameters compared among the strategies are resonance frequency, voltage and power output. In general, the structural modification PZT-MER by clamped PTFE cantilever beam at the free end of piezoelectric and rubber compound gives the best power output of 2.87mW compared to PZT-ME (0.72 mW) and PZT-M (22?W). � 2017 Faculty of Mechanical Engineering, Universiti Teknologi MARA (UiTM), Malaysia. Final 2023-05-29T06:39:54Z 2023-05-29T06:39:54Z 2017 Article 2-s2.0-85041058244 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85041058244&partnerID=40&md5=c926042e4f77841683088ab8a2427aba https://irepository.uniten.edu.my/handle/123456789/23375 SI 2 2 199 214 UiTM Press Scopus |
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Due to a number of advantages for small power applications (milliwatts), many researchers have begun to focus on usable energy harvesting from ambience. Over the years, to further expand the applications of vibration energy harvesting technology, many researchers have focused on how to improve the reliability and efficiency of the harvester. This paper presents work on improving piezoelectric energy harvesters based on structural modifications. Two different strategies of structural modification are proposed for optimization by using additional beam structure and additional rubber compound layer on the origin of the piezoelectric beam. This work summarizes the optimum performance of the strategies at a resonance frequency of 50�2 Hz at 0.25g ms-2 of acceleration. The parameters compared among the strategies are resonance frequency, voltage and power output. In general, the structural modification PZT-MER by clamped PTFE cantilever beam at the free end of piezoelectric and rubber compound gives the best power output of 2.87mW compared to PZT-ME (0.72 mW) and PZT-M (22?W). � 2017 Faculty of Mechanical Engineering, Universiti Teknologi MARA (UiTM), Malaysia. |
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57189247722 |
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57189247722 Resali M.S.M. Salleh H. |
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Resali M.S.M. Salleh H. |
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Resali M.S.M. Salleh H. Effect of rubber compound treatment and PTFE extension beam on piezoelectric energy harvester power density |
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Resali M.S.M. |
title |
Effect of rubber compound treatment and PTFE extension beam on piezoelectric energy harvester power density |
title_short |
Effect of rubber compound treatment and PTFE extension beam on piezoelectric energy harvester power density |
title_full |
Effect of rubber compound treatment and PTFE extension beam on piezoelectric energy harvester power density |
title_fullStr |
Effect of rubber compound treatment and PTFE extension beam on piezoelectric energy harvester power density |
title_full_unstemmed |
Effect of rubber compound treatment and PTFE extension beam on piezoelectric energy harvester power density |
title_sort |
effect of rubber compound treatment and ptfe extension beam on piezoelectric energy harvester power density |
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UiTM Press |
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2023 |
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1806427370047930368 |