Riblet Sensor -- Light Scattering on Micro Structured Surface Coatings
With the application of appropriate surface structuring on aircrafts, up to 8\% fuel may be saved in regular air traffic. Before these techniques can be introduced into productive environments, a controlling method for the quality of surface structuring is needed to be used during fabrication and se...
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Main Authors | , , , , |
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Format | Journal Article |
Language | English |
Published |
19.01.2016
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Subjects | |
Online Access | Get full text |
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Summary: | With the application of appropriate surface structuring on aircrafts, up to
8\% fuel may be saved in regular air traffic. Before these techniques can be
introduced into productive environments, a controlling method for the quality
of surface structuring is needed to be used during fabrication and service,
ensuring persistent quality of the structured coatings and a justified decision
for surface renewal. In this project, these important requirements for
achieving the improvements defined above are fulfilled. We have shown that fast
sampling is possible using noncontacting laser probing, and we have presented a
working preliminary configuration for the sensor. In the theoretical part, a
model for the interaction between a probing laser beam and the surface is
developed and the resulting wavefront is derived. This is done using a
combination of Huygens-Fresnel diffraction theory and geometrical optics. The
model is then used to counsel the design of the experimental setup, to
interpret the emerging data and to develop characteristic quantities for the
sample, their derivation from the data and their SNR ratio. In the experimental
part, the interaction of laser light with the structured riblet surface is
studied. For this purpose an optical setup was installed to perform
measurements of undegraded and degraded surfaces depending on a variety of
experimental parameter. The results of these measurements are constantly
compared and checked with the theoretical calculations. It allows for very
sensitive measurements of even slight degradations of the surfaces. Here, it is
regardless if the damage to the riblets is symmetrical or asymmetrical due to
mechanical loss of material or if it is deriving from changes of reflectivity
due to chemical processes of the riblet material itself. |
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DOI: | 10.48550/arxiv.1601.04694 |