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Integrated Ferroelectrics
An International Journal
Volume 195, 2019 - Issue 1: The First Materials Research Society of Thailand International Conference (MRS-Thailand 2017)
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Articles

Electrical Signal of Piezoelectric Buzzer by Impact Testing

S. JirungnimitsakulDepartment of Physics and Materials Science, Faculty of Science, Chiang Mai University, Chiang Mai, Thailand; ;Faculty of Education, Suratthani Rajabhat University, Suratthani, Thailand; ;PhD Degree Program in Applied Physics, Faculty of Science, Chiang Mai University, Chiang Mai, Thailand;
,
S. SomwanFaculty of Science and Agricultural Technology, Rajamangala University of Technology Lanna, Chiang Mai, Thailand
,
A. LimpichaipanitDepartment of Physics and Materials Science, Faculty of Science, Chiang Mai University, Chiang Mai, Thailand;
,
A. ChaipanichDepartment of Physics and Materials Science, Faculty of Science, Chiang Mai University, Chiang Mai, Thailand;
&
A. NgamjarurojanaDepartment of Physics and Materials Science, Faculty of Science, Chiang Mai University, Chiang Mai, Thailand; Correspondence[email protected]
Pages 178-186 | Received 31 Oct 2017, Accepted 22 Jun 2018, Published online: 07 May 2019
 
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Abstract

The aim of this paper was to study the electrical signal produced by the commercial piezoelectric buzzer by impact testing. The experiment varied external resistor, sphere weight, incident angle of sphere weight, impact position, the depth of the embedded piezoelectric buzzer in concrete and the impact surface of the embedded piezoelectric buzzer in concrete. As a result, we found that the suitable external resistor is 500 ohm which was related with resonant resistance of piezoelectric buzzer. The electrical signal increased as a result of the increased impact force on piezoelectric buzzer. The impact force will increase as the sphere weight falls at the middle of the piezoelectric buzzer. It is expected to explain electrical signal of piezoelectric buzzer by quantitative evaluation which is the key to understand physical mechanism to embedded piezoelectric materials in the structural health monitoring application.

Acknowledgements

This work was supported by Laser and Applied Optics Research Laboratory and Advanced Cement-based Materials Research Laboratory for facility supports. The authors are thankful to Graduate School and Faculty of Science, Chiang Mai University and Suratthani Rajabhat University for financial support.

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