Development of airframe design elements control technique under operational conditions

Authors

  • O. L. Pusyryov National Aviation University
  • V. O. Volkogon National Aviation University
  • O. M. Alekseev National Aviation University
  • V. V. Ushakov National Aviation University

DOI:

https://doi.org/10.18372/1990-5548.50.11386

Keywords:

Diagnostics, composite materials, infrared radiation, inspection

Abstract

The paper proposes to use a method of infrared pulse-echo inspection to control airframe designelements, made of polymeric composite materials under operators` conditions. The following is described:skeleton operation diagram of the given method, device structure and results of the preliminary researchesconfirming operation capacity of the method offered

Author Biographies

O. L. Pusyryov, National Aviation University

Candidate of Science (Engineering). Associate Professor. Aviation Technical Department, Flight Academy

V. O. Volkogon, National Aviation University

Post-graduate student. Educational and Research Institute of Air Navigation

O. M. Alekseev, National Aviation University

Postdoctoral student. Candidate of Science (Engineering). Associate Professor. Educational and Research Institute of Air Navigation

V. V. Ushakov, National Aviation University

Assistant Professor.Aviation Technical Department, Flight Academy

References

S. A. Natsubidze, “Perspectives of polymer composite materials application in modern aircrafts frame construction.” Proceedings from The current problems and future development of Russian civil aviation Edited volume of All-Russian research-to-practice internet conference for lecturers, scholars and candidates, Irkutsk: IF MHTU HA, vol. 12, pp. 56–64, 2012.

I. V. Munshtukov, A. L. Puzyrev, and V. V. Ushakov, “Diagnostics perspectives of design elements from polymer composite materials of aircraft airframe.” Navigation and communication guidance systems, vol. 3, pp. 29–32, 2014.

I. P. Belokur, Inspection fundamentals. Kiev: Azimut-Ukraina, 2004.

V. V. Murashov and A. F. Rumyantsev, “Defects of integrally machined components and multilayered construction from polymer composite materials and their detection methods.” Control. Diagnostics, vol. 5, 2007.

V. V. Kulikov and A. P. Petrova, “Analytical treatment of defects types in aeronautical equipment adhesive joints and their fettling operation.” VIAM 210-205708, 2010, 11 p.

V. P. Vavilov, Non destructive testing. Thermal control. V. V. Klyuev Eds. vols. 1–7; book 1, Moscow: Mashinostroenie, 2004.

I. N. Ermolov and Yu. V. Lanhe, Non destructive testing. Ultrasonic testing. V. V. Klyuev Eds. vols. 1–7; vol. 3. Moscow: Mashinostroenie, 2004.

V. N. Filinov, A. A. Ketkovich, and M. V. Filinov, Non destructive testing. Optical inspection. V. V.

Klyuev Eds. vols. 1–7; book 2, Moscow: Mashinostroenie, 2004.

M. M. Hurevich, Photometry (theory, methods and equipment). Leninhrad: Enerhoatomizdat, 1983.

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Issue

Vol. 4 No. 50 (2016)

Section

AUTOMATIC CONTROL SYSTEMS

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