Engineering Journal: Science and InnovationELECTRONIC SCIENCE AND ENGINEERING PUBLICATION
Certificate of Registration Media number Эл #ФС77-53688 of 17 April 2013. ISSN 2308-6033. DOI 10.18698/2308-6033
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Article

Certain conclusions on the results of introducing the design and technological reliability analysis in rocket and space technology. Part 3

Published: 11.04.2024

Authors: Pokhabov Yu.P.

Published in issue: #4(148)/2024

DOI: 10.18698/2308-6033-2024-4-2352

Category: Aviation and Rocket-Space Engineering | Chapter: Design, construction and production of aircraft

The paper presents an analysis of reasons for non-compliance between the expected and actual results in designing the one-time response mechanism to justify its performance and operational reliability. It shows that these characteristics at all stages of the mechanism life cycle are based on the designer’s dependability. It is noted that the most important components of such activities include knowledge, experience, qualifications, competencies and common sense of a designer. He is able not only to accumulate them in an evolutionary way, but also to acquire through the iterative application of design and technological reliability analysis carried out according to the established algorithm making it possible to most efficiently and promptly increase the design development level of organizations. It is established that for the highly critical one-time response mechanisms, such reliability analysis should be conducted obligatory in order to reduce the difference between the expected and actual design results.

EDN NIWVJE


References
[1] Pokhabov Yu.P. Teoriya i praktika obespecheniya nadezhnosti mekhanicheskikh ustroystv odnorazovogo srabatyvaniya [Theory and practice of ensuring the need for mechanical devices of one-time response]. Krasnoyarsk, SFU Publ., 2018, 338 p.
[2] Gorn I.A., Ivantsov N.Yu., Skryabin V.V. et al. O rezultatakh provedeniya analiza nadezhnosti mekhanicheskikh ustroystv raskrytiya paneley solnechnykh batarey MKA NT-100 [On the results of the analysis of the reliability of mechanical devices for opening the MKA NT-100 solar panels]. Reshetnevskie chteniya (9–12 noyabrya 2016, Krasnoyarsk) [Reshetnev Readings (November 9–12, 2016, Krasnoyarsk)]. Part 1. Krasnoyarsk, 2016, pp. 620–621.
[3] Pokhabov Yu.P., Kaverin V.A., Belov M.V. et al. Rezultaty konstruktorsko-teekhnologicheskogo analiza nadezhnosti tolkatelya golovnogo obtekatelya [Results of reliability design and technological analysis of the nose fairing pusher]. Inzhenerny zhurnal: nauka i innovatsii — Engineering Journal: Science and Innovations, 2023, iss. 5. https://doi.org/10.18698/2308-6033-2023-5-2273
[4] Patraev V.E. Metody obespecheniya i otsenki nadezhnosti kosmicheskikh apparatov s dlitelnym srokom aktivnogo sushchestvovaniya [Methods for ensuring and assessing reliability of the spacecraft with a long active life]. Krasnoyarsk, SibGAU Publ., 2010, 136 p.
[5] Hecht H., Hecht M. Reliability prediction for spacecraft. Report prepared for Rome Air Development Center, no. RADC-TR-85-229, 1985, 156 р.
[6] Saleh J.H., Caster J.-F. Reliability and Multi-State Failures: A Statistical Approach. NJ, John Wiley & Sons, 2011, 206 р.
[7] Berg A.I. Izbrannye trudy [Selected works]. Moscow–Leningrad, Energiya Publ., 1964, 224 р.
[8] Polovko A.M., Gurov S.V. Osnovy teorii nadezhnosti [Fundamentals of reliability theory]. St. Petersburg, BKhV-Peterburg Publ., 2006, 704 p.
[9] Aleksandrovskaya L.N., Aronov I.Z., Smirnov V.V. et al. Sertifikatsiya slozhnykh tekhnicheskikh system [Certification of complex technical systems]. Moscow, Logos Publ., 2001, 312 p.
[10] Shashkin V.V., Karzov G.P., ed. Nadezhnost v mashinostroenii [Reliability in mechanical engineering]. St. Petersburg, Politekhnika Publ., 1992, 719 p.
[11] Pokhabov Yu.P. Konstruktorsko-tekhnologicheskiy analiz nadezhnosti [Design and technological reliability analysis]. Krasnoyarsk, SFU, 2022. Available at: https://elib.sfu-kras.ru/handle/2311/145578?show=full&ysclid=la7xc81kmz225201519 (accessed February 9, 2024).
[12] Rosenthal R.M. Metodika povysheniya nadezhnosti i kachestva FMEA: mirovoy i rossiyskiy opyt razvitiya [Methodology for increasing reliability and quality of FMEA: world and Russian development experience]. RIA “Standarty i kachestvo” — AIA Standards and Quality. Available at: https://ria-stk.ru/upload/image/stq/2010/N4/04_2010-1.pdf (accessed February 9, 2024).
[13] Conley P.L., ed. Space Vehicle Mechanisms: Elements of Successful Design. NJ, John Wiley & Sons, 1998, 794 р.
[14] Kovalev V.V. Chto takoe “ne vezet” i kak s nim borotsya, ili kak obespechit nadezhnost RES pri razrabotke [What is “bad luck” and how to deal with it, or how to ensure the RES reliability during development]. Komponenty i tekhnologii — Components and Technologies, 2008, no. 6, pp. 100–107.
[15] Kovalev V.V. Chto takoe “ne vezet” i kak s nim borotsya, ili kak obespechit nadezhnost RES pri razrabotke (okonchanie) [What is “bad luck” and how to deal with it, or how to ensure the RES reliability during development (final part)]. Komponenty i tekhnologii — Components and Technologies, 2008, no. 7, pp. 132–138.
[16] Krause V., ed. Konstruirovanie priborov [Design of devices]. Moscow, Mashinostroenie Publ., 1987, Book 1, 384 p.; Book 2, 376 p.
[17] Parondzhanov V.D. Kak uluchshit rabotu uma: Algoritmy bez programmistov — eto ochen prosto! [How to improve your mind: Algorithms without programmers — it’s very simple!]. Moscow, Delo Publ., 2001, 360 p.
[18] Avizienis A., Laprie J.-C., Randell B., Landwehr C. Basic concepts and taxonomy of dependable and secure computing. IEEE Trans. On Dependable and Secure Computing, 2004, vol. 1, no. 1, pp. 11–33.
[19] Avizienis A., Laprie J.-C. Dependable Computing: from Concepts to Design Diversity. Proc. of the IEEE, 1986, vol. 74, no. 5, pp. 629–638.
[20] Kharchenko V.S. Paradigmy i printsipy garantosposobnykh vychisleniy: sostoyanie i perspektivy razvitiya [Paradigms and principles of dependable computing: state and development prospects. Радioелектронi i комп’ютернi системи — Radioelectronic and Computer Systems, 2009, no. 2, pp. 91–100.
[21] Kuznetsov S. SOA s garantiey kachestva [SOA with quality assurance]. Otkrytye sistemy. SUBD — Open Systems. DBMS, 2008, no. 7, pp. 72–76.
[22] Klimov E.A. Vvedeniye v psikhologiyu truda [Introduction to occupational psychology]. Moscow, Kultura i Sport, UNITI Publ., 1998, 350 p.
[23] GOST R 56526–2015. Trebovaniya nadezhnosti i bezopasnosti kosmicheskikh sistem, kompleksov i avtomaticheskikh kosmicheskikh apparatov edinichnogo (melkoseriynogo) izgotovleniya s dlitelnymi srokami aktivnogo sushchestvovaniya [Reliability and safety requirements for space systems, complexes and unmanned spacecrafts of unique (small series) production with long life of active operation]. Moscow, Standartinform Publ., 2016, 50 p.
[24] Marx K. Das Kapital. Verlag von Otto Meisner, 1867 [In Russ.: Marks K. Kapital. Moscow, Gospolitizdat Publ., 1952, vol. 1, 794 p.].