Оптимизация конструкции цистерны пожарного автомобиля АЦ-5.0-50/4 на базе шасси МАЗ-5337 методом компьютерного моделирования
DOI:
https://doi.org/10.33408/2519-237X.2019.3-1.38Ключевые слова:
пожарный автомобиль, цистерна, напряжение, коэффициент запас прочности, сварной шов, компьютерное моделирование, элементы конструкцииАннотация
Проведены исследования напряженного состояния сварных швов пожарной автоцистерны АЦ-5.0-50/4 на базе шасси МАЗ-5337 с применением подходов адаптивного компьютерного моделирования. По критерию прочности оптимизированы элементы существующей конструкции. На основе расчетов разработаны решения по модернизации конструкции цистерны пожарного автомобиля с целью повышения эксплуатационной надежности.
Библиографические ссылки
Bezukhov N.I. Osnovy teorii uprugosti, plastichnosti i polzuchesti [Fundamentals of the theory of elasticity, plasticity and creep]. Moscow: Vysshaya shkola, 1993. 512 p. (rus)
Bespal'ko, S.V. Razrabotka i analiz modeley povrezhdayushchikh vozdeystviy na kotly tsistern dlya perevozki kriogennykh produktov [Development and analysis of models of damaging effects on the boilers of tanks for transportation of cryogenic products]. Grand PhD tech. sci. diss.: 05.22.07. Moscow, 2000. 427 p. (rus)
Bobylev A.V. Mekhanicheskie i tekhnologicheskie svoystva metallov [Mechanical and technological properties of metals]: handbook. Moscow: Metallurgiya, 1980. 296 p. (rus)
Korotkevich S.G., Kovtun V.A. Prognozirovanie ekspluatatsionnoy nadezhnosti pozharnykh avtotsistern s primeneniem podkhodov komp'yuternogo modelirovaniya [Forecasting the operational reliability of fire tankers with the use of computer simulation]. Proc. Intern. scientific-practical conf. «Goreniye i problemy tusheniya pozharov», Moscow, Juny 5, 2017. In 2 parts. Moscow: FGBU VNIIPO of EMERCOM of Russia, 2017. Part 2. Pp. 437–439. (rus)
Metodika dinamicheskogo modelirovaniya napryazhenno-deformirovannogo sostoyaniya elementov i uzlov konstruktsiy obolochechnogo tipa [Methods of dynamic modeling of stress-strain state of elements and assemblies of shell type structures]. Gomel: Gomel branch UCP, 2017. p.8. (rus)
Kovtun V.A., Korotkevich S.G., Zharanov V.A. Komp'yuternoe modelirovanie i issledovanie napryazhenno-deformirovannogo sostoyaniya konstruktsiy tsistern pozharnykh avtomobiley [Computer simulation and research of the stress-strain state of fire tank truck construction]. Vestnik Universiteta grazhdanskoy zashchity MChS Belarusi, 2018. No. 1. Pp. 81–90. (rus)
Korotkevich S.G., Kovtun V.A. Issledovanie napryazhenno-deformirovannogo sostoyaniya konstruktsiy tsistern pozharnykh avtomobiley [The research of strain-stress state of fire apparatus tanks constuction]. Vestnik Voronezhskogo instituta GPS MChS Rossii, 2017. No. 4 (25). Pp. 45–51. (rus)
Eliseev K.V., Zinov'eva T.V. Vychislitel'nyy praktikum v sovremennykh CAE-sistemakh [Computational practice in modern SAE Systems]: tutorial. Saint Petersburg: Peter the Great St.Petersburg Polytechnic University, 2008. 112 p. (rus)
Kaplun A.B., Morozov E.M., Olfer'eva MA. ANSYS v rukakh inzhenera: Prakticheskoe rukovodstvo [ANSYS in the hands of an engineer]: tutorial. Moscow: Editorial URSS, 2003. 272 p. (rus)
Pojarkova K.V., Kuzeev I.R., Zabelin K.L. Otsenka defektnosti struktury svarnykh soedineniy po nalichiyu nemetallicheskikh vklyucheniy [Evaluation of defects in the structure of welded joints due to the presence of nonmetallic inclusions]. Mashinostroenie: setevoy elektronnyy nauchnyy zhurnal, 2017. No. 2 (5). Pp. 32–35, available at: http://www.indust-engineering.ru/issues/2017/2017-2.pdf (accessed: January 4, 2019). (rus)
Mjachenkov V.I. et al. Raschety mashinostroitel'nykh konstruktsiy metodom konechnykh elementov [Calculations of engineering structures by the finite element method]: reference book. Moscow: Mashinostroenie, 1989. 520 p. (rus)
Hrenov K.K. Svarka, rezka i payka metallov [Welding, cutting and soldering of metals]: reference book. Moscow: Mashgiz, 1952. 384 p. (rus)
Benerdzhi P.V., Batterfild R.I. Metody granichnykh elementov v prikladnykh naukakh [Boundary element methods in applied sciences]. Moscow: Mir, 1984. 494 p. (rus)
Nichiporchik S.N., Korzhentsevskiy, M.I., Kalachev V.F. Detali mashin v primerakh i zadachakh: [Machine parts in examples and tasks]: tutorial. Ed. by S.N. Nichiporchik. Moscow: Vyssh. shkola, 1981. 186 p. (rus)
Voropay V.S. Eksperimental'nye issledovaniya tekhnicheskogo sostoyaniya vagonov-tsistern [Experimental studies of the technical condition of tank wagons] Sbornik nauchnykh rabot DonIZT, 2010. No. 23. Pp. 76–85 (rus)
Golovchenko V.I., Ivanina N.L. Proverka prochnosti elementov krepleniya tsisterny k shassi avtotoplivozapravshchika ot smeshcheniya pri deystvii prodol'noy nagruzki [Verification of the strength of the tank fastening elements to the chassis of the refueller against displacement under the action of a longitudinal load]. Vіsnik Natsіonal'nogo tekhnіchnogo unіversitetu «KhPІ», 2012. No. 1 (975). Pp. 22–35 (rus)
Kovtun V.A., Korotkevich S.G., Pasovets V.N. Pozharnaya tsisterna [Fire tank]: utility model BY 11787. Published October 30, 2018. (rus)
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