Increasing the service life of structural elements of aviation equipment using strengthening technologies based on pulsating subsonic gas flows-Reference-Cited by-同舟云学术

Increasing the service life of structural elements of aviation equipment using strengthening technologies based on pulsating subsonic gas flows

Published:2022-05-02 Issue:2 Volume:25 Page:41-53
ISSN:2542-0119
Container-title:Civil Aviation High Technologies
language:
Short-container-title:Naučn. vestn. MGTU GA

Author:

Ivanov D. A.¹,Petrova T. V.¹

Affiliation:

1. Saint Petersburg State University of Civil Aviation

Publisher

Moscow State Institute of Civil Aviation

Subject

General Medicine

Reference18 articles.

1. Ivanov, D.A. (2017). The effect of unsteady gas flows on the structure and properties of materials used in the aviation industry. St.Petersburg: SPbGUGA, 328 р. (in Russian)

2. Tomblin, J. & Seneviratne, W. (2011). Determining the fatigue life of composite aircraft structures using life and load-enhancement factors. Report DOT/FAA/AR-10/6, 155 p.

3. Burhan, I. & Kim, H.S. (2018). S-N curve models for composite materials characterisation: an evaluative review. Journal of Composites Science, vol. 2, issue 3, ID: 38. DOI: 10.3390/JCS2030038

4. Lapaev, A.V. & Shapkin, V.S. (2014). To the question of the evaluation of influence of corrosion defeats of the airframe on the flight validity of aircrafts under the terms of fatigue durability. Scientific Bulletin of the State Scientific Research Institute of Civil Aviation (GosNII GA), no. 4 (315), pp. 17–21. (in Russian)

5. Razinkov, F.F. & Akopyan, K.E. (2020). Analysis of changes in parameters of corrosion damage to structural elements of the central fuselage with an increase in the service life of Mi-8 helicopters. Scientific Bulletin of the State Scientific Research Institute of Civil Aviation (GosNII GA), no. 32, pp. 53–64. (in Russian)