Transducer degradation and high amplitude behavior of broadband piezoelectric stack transducer for vibrothermography

Date
2011-07-01
Authors
Vaddi, Jyani Somayajulu
Holland, Stephen
Holland, Stephen
Reusser, Ricky
Major Professor
Advisor
Committee Member
Journal Title
Journal ISSN
Volume Title
Publisher
Altmetrics
Authors
Research Projects
Organizational Units
Aerospace Engineering
Organizational Unit
Journal Issue
Series
Department
Aerospace Engineering
Abstract

Vibrothermography, also known as Sonic IR and Thermosonics, is an NDE technique for finding cracks and flaws based on vibration-induced frictional rubbing of unbonded surfaces. Vibration is usually generated by an ultrasonic welder or a broadband piezoelectric stack transducer which transduces electrical energy into mechanical vibrations. Defect detection in vibrothermography depends on specimen vibration, which in turn is proportional to velocity spectrum (Voc) of the transducer (with sufficient coupling). A long standing problem has been generation of repeatable specimen vibrations. The broadband piezoelectric stack transducers give much better trigger-to-trigger repeatability than the welder system. Even with the broadband piezostack, at sufficiently high excitation voltages, the transducer behavior becomes non linear and less repeatable. Also, as the transducer degrades over time, its Voc changes significantly. We investigate the reasons for this non linear behavior and present experimental results on the effects of excitation voltage and transducer degradation on Voc. Using these results, we suggest how to improve the repeatability of vibration generation and to enhance the longevity of the transducer.

Comments

Copyright 2012 American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics.

This proceeding appeared in AIP Conference Proceedings, 1430 (2012): 552–558 and may be found at: http://dx.doi.org/10.1063/1.4716276.

Description
Keywords
Citation
DOI
Source