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Kiva, D.S. and Grebenikov, A.G. Scientific Foundations of the Transport Category Aircraft Integrated Design, Part 2. SC “Antonov”, National Aerospace University “KhAI” (2014).KivaD.S.GrebenikovA.G.,National Aerospace University “KhAI”(2014).Search in Google Scholar
Lepyakhov, Y.S. Fuselage Geometric Shape Construction. ASTC “Antonov” (2012): p. 135.LepyakhovY.S..ASTC “Antonov”(2012): p.135.Search in Google Scholar
Balabuev, P.V., Bychkov, S.A., Grebenikov, A.G., et al. Airplanes with Gas Turbine Engines General Design Fundamentals: Textbook: In 2 Hours, Part 1. National Aerospace University “KhAI” (2003): p. 368.BalabuevP.V.BychkovS.A.GrebenikovA.G.,Part 1. National Aerospace University “KhAI”(2003): p.368.Search in Google Scholar
Mak, M. Airworthiness Standards for Transport Category Aircraft (AP-25) (1994): 322 p. 6.MakM.(1994):322p.6.Search in Google Scholar
Katyrev, I.Y., Neimark, M.S., Sheinin, V.M., et al. Design of Civil Aircraft: Theories and Methods. In: Novozhilova, G.V. (eds). Mashinostroenie, Moskov (1991): p. 534.KatyrevI.Y.NeimarkM.S.SheininV.M.. In:NovozhilovaG.V.(eds).MashinostroenieMoskov(1991): p.534.Search in Google Scholar
Dveirin, A.Z., Kostyuk, V.A., Rabichev, A.I., Balun, A.V., and Konyshev, D.S. Transport Category Aircraft Cargo Doors Types Systematization and Classification According to the Main Design Features. In: Open Information and Computer Integrated Technologies: Collection of Articles. Scientific. tr. National Aerospace University them. NOT. Zhukovsky “KhAI”. Kharkov, No. 70 (2015): pp. 33–53.DveirinA.Z.KostyukV.A.RabichevA.I.BalunA.V.KonyshevD.S.Transport Category Aircraft Cargo Doors Types Systematization and Classification According to the Main Design Features. In: Open Information and Computer Integrated Technologies: Collection of Articles..Kharkov,No. 70(2015): pp.33–53.Search in Google Scholar
Bychkov, S.A., Dveirin, A.Z., Kostyuk, V.A., Balun, A.V., Rabichev, A.I., Konyshev, D.S., and Dolgikh, V.S. “Method of Constructing a Mathematical Model of the Transport Aircraft Fuselage Tail Section Theory.” In: Open Information and Computer Integrated Technologies: Collection of Articles. Scientific. tr. National Aerospace University them. NOT. Zhukovsky “KhAI”. - Kharkiv, No. 78 (2017): pp. 5–17.BychkovS.A.DveirinA.Z.KostyukV.A.BalunA.V.RabichevA.I.KonyshevD.S.DolgikhV.S.“Method of Constructing a Mathematical Model of the Transport Aircraft Fuselage Tail Section Theory.”In:(2017): pp.5–17.Search in Google Scholar
Boiler, C. “Structural Health Management of Ageing Aircraft and other Infrastructure.” [Electronic resource]: Monograph on Structural Health Monitoring, Institute of Smart Structures and Systems (ISSS) (2002): p. 35. Available at: https://www.osti.gov/servlets/purl/1120418 (Accessed on 27 October 2020).BoilerC.“Structural Health Management of Ageing Aircraft and other Infrastructure.”(2002): p.35. Available at: https://www.osti.gov/servlets/purl/1120418 (Accessed on 27 October 2020).Search in Google Scholar
Cavallini, G. and Lazzeri, R. “A Probabilistic Approach to Fatigue Risk Assessment in Aerospace Components.” Engineering Fracture Mechanics Vol. 74 No. 18 (2007): pp. 2964–2970.CavalliniG.LazzeriR.“A Probabilistic Approach to Fatigue Risk Assessment in Aerospace Components.”Vol. 74No. 18(2007): pp.2964–2970.Search in Google Scholar
Certification Specifications and Acceptable Means of Compliance for Normal-Category Aeroplanes CS-23. EASA (2017): p. 982..EASA(2017): p.982.Search in Google Scholar
Certification Specifications and Acceptable Means of Compliance for Large Aeroplanes CS-25. EASA (2020): p. 1162..EASA(2020): p.1162.Search in Google Scholar
Hendricks, W.R. “The Aloha Airlines Accident – A New Era for Aging Aircraft.” In: Atluri, S.N., Sampath, S.G., and Tong, P. (eds). Structural Integrity of aging Airplanes. Springer-Verlag, Heidelberg (1991): pp. 153– 166. (Springer Series in Computational Mechanics).HendricksW.R.“The Aloha Airlines Accident – A New Era for Aging Aircraft.”In:AtluriS.N.SampathS.G.TongP.(eds)..Springer-Verlag,Heidelberg(1991): pp.153–166. (Springer Series in Computational Mechanics).Search in Google Scholar
Joint Service Specification Guide for Aircraft Structures (JSSG-2006). Department of Defense USA (1998): p. 497.Joint Service Specification Guide for Aircraft Structures (JSSG-2006).(1998): p.497.Search in Google Scholar
Torenbeek E. Advanced Aircraft Design: Conceptual Design, Analysis and Optimization of Subsonic Civil Airplanes. John Wiley and Sons, Chichester (2013): p. 410.TorenbeekE..John Wiley and Sons,Chichester(2013): p.410.Search in Google Scholar
Raymer, D.P. Aircraft Design: A Conceptual Approach. 6th ed. AIAA Education Series, California (2018): p. 918.RaymerD.P.6th ed.AIAA Education Series,California(2018): p.918.Search in Google Scholar
AC 25.783-1A – Fuselage Doors and Hatches. U.S. Department of Transportation, Federal Aviation Administration.AC 25.783-1A – Fuselage Doors and Hatches.,Federal Aviation Administration.Search in Google Scholar