Circular geometric moiré for degradation prediction of mechanical components performing angular oscillations

An experimental technique based on time-averaged circular geometric moiré for optical measurement of angular oscillations is presented in this paper. The pitch of the circular moiré is preselected in such a way that angular oscillations of different amplitudes yield time-averaged moiré fringes at di...

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Vydáno v:Mechanical systems and signal processing Ročník 86; s. 278 - 285
Hlavní autoři: Palevicius, P., Aleksa, A., Maskeliunas, R., Ragulskis, M.
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Ltd 01.03.2017
Témata:
Angular oscillations
Degradation prediction
Geometric moiré
Angular oscillations
Degradation prediction
Geometric moiré
ISSN:0888-3270, 1096-1216
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Shrnutí:An experimental technique based on time-averaged circular geometric moiré for optical measurement of angular oscillations is presented in this paper. The pitch of the circular moiré is preselected in such a way that angular oscillations of different amplitudes yield time-averaged moiré fringes at different locations of the cover image. This optical effect enables to construct an optical scale for direct measurement of angular oscillations. The proposed technique is similar to visual cryptography, which is a cryptographic technique that allows encryption of visual information in such a way, that decryption can be done without use of any computational device. The efficiency and the applicability of the proposed technique for performance degradation prediction of rotating mechanical components is illustrated and validated by computational simulations and experimental tests. •Circular geometric moiré is developed for optical measurement of angular oscillations.•Time-averaged moiré fringes are exploited for the construction of an angular scale.•Optical method for degradation prediction of components performing angular oscillations.•Computational and experimental simulations demonstrate the applicability of the scheme.
ISSN:0888-3270
1096-1216
DOI:10.1016/j.ymssp.2016.10.011