Title page for ETD etd-12202006-112642


Type of Document Master's Thesis
Author Yoo, Byungseok
Author's Email Address bsyoo77@vt.edu, bsyoo77@gmail.com
URN etd-12202006-112642
Title Practical Aspects of Assessing Nonlinear Ultrasonic Response of Cyclically Load 7075-T6 Aluminum
Degree Master of Science
Department Engineering Science and Mechanics
Advisory Committee
Advisor Name Title
Duke, John C. Jr. Committee Chair
Hajj, Muhammad R. Committee Member
Kriz, Ronald D. Committee Member
Keywords
  • Ultrasonic
  • NDE
  • Nonlinearity Parameter
  • Power Spectrum
  • Bispectrum
  • Bicoherence Spectrum
Date of Defense 2006-12-12
Availability unrestricted
Abstract
The ultrasonic NDE technique to characterize the ultrasonic nonlinear response of the cyclically load 7075-T6 aluminum is described in this thesis. In order to estimate the nonlinear relation of the ultrasonic waves due to material fatigue damage or degradation, the spectral analysis techniques such as the power spectrum, bispectrum, and bicoherence spectrum are applied. The ultrasonic nonlinearity parameters by Cantrell and Jhang are introduced and presented as a function of the material fatigue growth, the number of fatigue cycles. This thesis presents the effectiveness of the bispectral analysis for evaluating the nonlinear aspects of the ultrasonic wave propagation. The results show that the nonlinearity parameters by Cantrell and Jhang are responsive to the output amplitude of the received signal and vary for the various materials, and independent of the input frequency and the ultrasonic wave propagation distance. By using the bispectral analysis tools, particularly the bicoherence spectrum, the increase of the coupling levels between the fundamental, its harmonic, and subharmonic frequency components is presented as the number of fatigue cycles is increased. This thesis suggests that the application of the bicoherence spectrum based on the nonlinear wave coupling relations be more effective for estimating the level of the material fatigue life.
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