Improving the Technology for Producing Pressure Couplings of Bushing-Housing Parts by Using a Power Drive Made of an Alloy with the Shape Memory Effect
| Authors: Lomovskoy O.V., Zagidullin R.S. | Published: 24.03.2021 |
| Published in issue: #4(733)/2021 | |
| Category: Aviation, Rocket and Technology | Chapter: Aircraft Development, Design and Manufacture | |
| Keywords: pressure couplings, quality, quality of connections, ring power drive, shape memory effect, FMEA risk analysis, pressing by the FMEA method, contact pressure |
The article describes the technology of using a power drive made of an alloy with the shape memory effect to improve the quality of the pressure couplings of bushing-housing. A comprehensive assessment of the existing approaches to the production of a pressure coupling is performed. The risk analysis of the technological process of pressing by the FMEA method is carried out. The flow diagram of the proposed process and the results of an experimental study of the dependence of contact pressures on the radial expansion of a ring load-bearing element made of an alloy with the shape memory effect are presented.
References
[1] Zamyatin V.K. Tekhnologiya i osnashcheniye sborochnogo proizvodstva mashinopriborostroyeniya [Technology and equipment for Assembly production of machine tools]. Moscow, Mashinostroyeniye publ., 1995. 608 p.
[2] Novikov M.P. Sborka izdeliy mashinostroyeniya [Assembly of mechanical engineering products]. Moscow, Mashinostroyeniye publ., 1983, vol. 1, 480 p.
[3] Novikov M.P. Osnovy tekhnologii sborki mashin i mekhanizmov [Fundamentals of machine and mechanism Assembly technology]. Moscow, Mashinostroyeniye publ., 1980. 592 p.
[4] Dmitriyev A.Ya., Vashukov Yu.A., Mitroshkina T.A. Robastnoye proyektirovaniye i tekhnologicheskaya podgotovka proizvodstva izdeliy aviatsionnoy tekhniki [Robust design and technological preparation of production of aircraft products]. Samara, SGAU publ., 2016. 76 p.
[5] Bogdanovich V.I., Rodin N.P., Lomovskoy O.V. Primeneniye materialov s effektom pamyati formy v proizvodstve letatel’nykh apparatov [The use of materials with shape memory effect in the manufacture of aircraft]. Samara, SGAU publ., 2007. 64 p.
[6] Tyulevin S.V., Nazarov D.V., Bogdanovich V.I., Lomovskoy O.V., Sharov A.A. Opravka dlya zakrepleniya tonkostennoy detali pri pretsizionnom shlifovanii [Mandrel for fixing a thin-walled part during precision grinding]. Patent RF no. 2616738, 2017.
[7] Lomovskoy O.V., Feoktistov O.V., Feoktistova O.V. An application of devices with power gear from an alloy with shape memory effect to joining–weldings of details of pipelines in systems and units of railway gaz–turbine installations. Vestnik Samarskogo gosudarstvennogo universiteta, 2006, no. 9(49), pp. 55–65 (in Russ.).
[8] Feoktistov V.S., Feoktistov O.V., Lomovskoy O.V. On the technology of pipe insertion into the pipe plates of a diesel locomotive power installation heat exchanger by means of a special tool with the test portion composed of a shape memory material. Nauka i tekhnika transporta, 2006, no. 2, pp. 82–91 (in Russ.).
[9] Barvinok V.A., Bogdanovich V.I., Groshev A.A., Plotnikov A.N., Lomovskoy O.V. Design method of power drives from material shape memory effect for rocket and space technology. Izvestiya Samarskogo nauchnogo tsentra RAN, 2013, vol. 15, no. 6, pp. 272–277 (in Russ.).
[10] Barvinok V.A., Bogdanovich V.I., Lomovskoy O.V., Vishnyakov M.A., Groshev A.A. Development of reversible power drives from materials with the effect of memory of form for devices, applied in the knots of check off of space vehicles. Izvestiya SNTs RAN, 2011, vol. 13, no. 4–2, pp. 301–306 (in Russ.).
[11] Chekmarev A.N. Kvalimetriya i upravleniye kachestvom. Chast’ 1. Kvalimetriya [Qualimetry and quality management. Part 1. Qualimetry]. Samara, SGAU publ., 2010. 172 p.
[12] Zagidullin R.S., Barinov P.V., Burkova V.A., Glushkov S.V., Mitroshkina T.A. Modern methods for improving the design quality of special technological equipment for testing the Assembly and protection unit of the scientific and energy module. Kachestvo i zhizn’, 2019, no. 2(22), pp. 44–53 (in Russ.), doi: 10.34214/2312-5209-2019-22-2-44-53
[13] Dmitriyev A.Ya., Mitroshkina T.A., Shutemova E.V., Konchits A.V. Improving of assembly processes using the design of experiment technique lis-hin and the risk analysis method FMEA. Sborka v mashinostroyenii, priborostroyenii, 2015, no. 8, pp. 44–48 (in Russ.).
[14] Mitroshkina T.A., Dmitriyev A.Ya., Laptev N.I., Bogateyev G.G. Modern innovative methods of product quality structuring and risk management. Vestnik Kazanskogo tekhnologicheskogo universiteta, 2014, vol. 17, no. 8, pp. 330–332 (in Russ.).
[15] Dmitriev A., Mitroshkina T. Improving the Efficiency of Aviation Products Design Based on International Standards and Robust Approaches. IOP Conference Series: Materials Science and Engineering, 2019, vol. 476, pp. 012009, doi: 10.1088/1757-899X/476/1/012009
