RECENT RESEARCH OF DYNAMICS AND STRENGTH OF TANK VEHICLES

A.O. SHIMANOVSKY, D. Sc. in Eng., Assoc. Prof., Head of Department of Technical Physics and Theoretical Mechanics, Belarusian State University of Transport, Gomel, Republic of Belarus, E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.

The studies on dynamics and strength of road tankers and tank wagons conducted in the world in the recent ten years were reviewed. The most interesting results of these works are presented. The prospects of development studies which main objective is to ensure the safety of transportation of liquid cargo were the issue under consideration.

road tanker, tank wagon, computer modelling, liquid oscillations, equivalent models, baffles

• Griff M.I., Vengerov I.A., Olitskiy V.S., Komarov V.V., Roshal L.Ja. Kratkij avtomobil'nyj spravochnik v 5 t. T. 4: Special'nye i specializirovannye avtotransportnye sredstva. Ch. 1: Furgony, samosvaly, cisterny, platformy, tjagаchi special'nye, pricepy-rospuski [Short automobile reference book. Vol. 4: Special and specialized vehicles. Part 1: Vans, dump trucks, tanks, platforms, special tractor units, pole trailers]. Moscow, Avtopolis-pljus, 2006. 445 p.
• Kinkaid J. Tank Car Color Guide. Vol. 1: Cars with full center sills. Scotch Plaints, NG, Morning Sun Books, 2010. 128 p.
• Shilova E.P. Specializirovannyj podvizhnoj sostav dlja agropromyshlennogo kompleksa: katalog [Special vehicles for agro-industrial complex: catalog]. Moscow, Rosinformagroteh, 2005. 129 p.
• Goncharov A.N., Zharikov O.V. Preduprezhdenie chrezvychajnyh situacij pri transportirovke opasnyh gruzov [Prevention of emergencies during transport of dangerous goods]. Chrezvychajnye situacii: Teorija. Praktika. Innovacii [Emergencies: Theory. Practice. Innovations]. Gomel', GVKIU, 2002, pp. 173-177.
• Bogomaz G.I. Dinamika zheleznodorozhnyh vagonov-cistern [Railway tank-cars dynamics]. Kiev, Naukova dumka, 2004. 223 p.
• Senko V.I., Putyato A.V., Shimanovskij A.O. Prochnost' kuzova zheleznodorozhnoj cisterny s uchetom peremeshhenija perevozimogo zhidkogo gruza [The strength of railway tank body, taking into account movement of the transported liquid cargo]. Gomel, BelSUT, 2006. 210 p.
• Vysotskiy M.S., Pleskachevskiy Ju.M., Shimanovskij A.O. Dinamika avtomobil'nyh i zheleznodorozhnyh cistern [Dynamics of road and railway tankers]. Minsk, Belavtotraktorostroenie, 2006. 320 p.
• 6. Blohin E.P., Ursulyak L.V., Romanyuk Ja.N. Issledovanie prodol'noj nagruzhennosti dlinnosostavnyh gruzovyh poezdov pri tormozhenii [Analysing longitudinal loading of heavy trains during braking]. Nauka ta progres transportu. Visnik Dnipropetrovs'kogo nacional'nogo universitetu zaliznichnogo transportu [Science and Transport Progress. Bulletin of Dnipropetrovsk National University of Railway Transport], 2011, no. 38, pp. 7-16.
• Naumenko N.E., Hizha I.Ju., Bogomaz E.G. Ocenka bezopasnosti dvizhenija gruzovogo poezda, v sostav kotorogo vkljuchen scep vagonov-cistern [Assessment of safe running the freight car with coupling tank cars]. Tehnicheskaja mehanika [Technical mechanics], 2013, no. 3, pp. 50-56.
• Markova O., Kovtun H., Maly V. Modelling train motion along arbitrary shaped track in transient regimes. Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit. 2015, vol. 229, no. 1, pp. 97-105.
• Kovtun E.N., Markova O.M., Maly V.V. Ocenka dinamicheskih harakteristik vagona-cisterny modeli 15-1547-03, perevozjashhej razlichnye tipy zhidkih gruzov [Dynamic characteristics estimation for the 15-1547-03 model tankcar transporting different types of liquid cargo]. Zheleznodorozhnyj transport Ukrainy [Railway Transport of Ukraine], 2014, no. 5(108), pp. 23-28.
• Ashtiani I.H., Rakheya S., Ahmed A.K.W., Zhang, J. Hunting Analysis of a Partially-Filled Railway Tank Car. Proceedings of the 2015 Joint Rail Conference. San Jose, California, 2015, paper V001T10A003. 7 p.
• Di Gialleonardo E., Premoli A., Gallazzi S., Bruni S. Sloshing effects and running safety in railway freight vehicles. Vehicle System Dynamics, 2013, vol. 51, no 10, pp. 1640-1654.
• Younesian D., Abedi M., Ashtiani I.H. Dynamic analysis of a partially filled tanker train travelling on a curved track. International Journal of Heavy Vehicle Systems, 2010, vol. 17, no. 3-4, pp. 331-358.
• Romero J.A., Betanzo-Quezada E., Obregón-Biosca S.A. Rail damage potentials of sloshing cargo. International Journal of Railway Research, 2014, vol. 1, no. 1, pp. 45-52.
• Rezvani M.A., Feizi M.M., Shadfar M. An innovative method for stress analysis of Y25 bogie under oscillating loads due to tank wagon fluid sloshing. Journal of Theoretical and Applied Mechanics, 2014, vol. 52, no. 3, pp. 745-755.
• Shahravi M., Sajjadi M.R., Feizi M.M. Investigation of sloshing coeffi-cient by Arbitrary Lagrange-Euler methods in partially filled tankers. Advances in Railway Engineering, an International Journal, 2014, vol. 2, no. 1, pp. 1-11.
• Razaghi R., Sharavi M., Feizi M. M. Investigating the effect of sloshing on the energy absorption of tank wagons crash. Transactions of the Canadian Society for Mechanical Engineering, 2015, vol. 39, no. 2, pp. 187-200.
• Zhang J.-M., Zhang Q., Zhou H.-C., Wang K.-W. Tests for a railway tank car's longitudinal vibration and impact characteristics considering fluid-structure interaction. Journal of vibration and shock, 2015, vol. 34, no. 15, pp. 205-209.
• Putyato A.V. Komp'juternoe modelirovanie prodol'noj dinamiki zheleznodorozhnyh cistern s uchetom vozmozhnogo nedoliva kotla [Computer simulation of railway tanks longitudinal dynamics for the possible incomplete filling of the boiler]. Vestnik Belorusskogo gosudarstvennogo universiteta transporta: Nauka i transport [Herald of the Belarusian State University of Transport: Science and Transportation], 2010, no. 2(21), pp. 10-15.
• Viznyak R.I., Lovskaya A.A. Utochnenie velichin usilij, kotorye dejstvujut na kuzova vagonov pri ih perevozke zheleznodorozhnymi paromami [Refinement of Forces Acting on Car Bodies in the Course of Their Transportation by Ferry-Boats]. Vestnik nauchno-issledovatel'skogo instituta zheleznodorozhnogo transporta [Bulletin of the Research Institute of Railway Transport], 2013, no. 2, pp. 20-27.
• Vera C., Paulin J., Suarez B., Gutiérrez, M. Simulation of freight trains equipped with partially filled tank containers and related resonance phenomenon. Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit, 2005, vol. 219, no. 4, pp. 245-259.
• Wang L., Shi H., Shabana A.A. Effect of the tank car thickness on the nonlinear dynamics of railroad vehicles. Proceedings of the Institution of Mechanical Engineers, Part K: Journal of Multi-body Dynamics, 2016, paper 1464419316642930. 27 p.
• Nahidi A., Younesian D. Novel control strategies for roll/pitch stabilization of tank wagons. Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit, 2016, vol. 230, no. 1, pp. 151-164.
• Putyato A.V., Shimanovskij A.O., Kuznetsova M.G. Modeling of Railway Tanks Stress-Strain Condition under Hydrodynamic Loading, Civil-Comp Proceedings, 2014, vol. 104, Paper 259. 13 p.
• Ahad F. R., Enakoutsa K., Solanki K. N., Tjiptowidjojo Y., Bammann D. J. Modeling the Dynamic Failure of Railroad tank cars using a physically motivated internal state variable plasticity/damage nonlocal model. Modelling and Simulation in Engineering, 2013, paper ID 815158. 11 p.
• Jeong D.Y., Gordon J.E., Tang Y.H., Perlman A.B. Analysis of railroad tank car shell impacts using finite element method. Proceeding of IEEE/ASME/ASCE 2008 Joint Rail Conference. Wilmington, Delaware, 2008, pp. 61-70.
• Tang Y.H., Yu H., Gordon J.E., Jeong D.Y. Finite element analyses of railroad tank car head impacts. Proceeding of ASME 2008 Rail Transportation Division Fall Technical Conference. Chicago, Illinois, 2008, pp. 117-125.
• Atamanchuk N.A., Cyganskaya L.V. Napravlenija sovershenstvovanija konstrukcij vagonov-cistern dlja perevozki nefteproduktov [Directions of designs improvement of tank wagons for the carriage of petroleum products]. Transport Rossijskoj Federacii [Transport of the Russian Federation], 2013, no. 3(46), pp. 14-17.
• Zhitkov Ju.B. Innovacionnyj vagon-cisterna dlja perevozki himicheskih gruzov [Innovative tank car for transportation of chemical goods]. Transport Rossijskoj Federacii [Transport of the Russian Federation], 2014, no. 3(52), pp. 58-60.
• Bespalko S.V., Bogachev V.I. Ocenka vlijanija parametrov dnishha na naprjazhennoe sostojanie kotla cisterny [Tank head parameters assessment of influence on tank car boiler stress and strain state]. Nauka ta progres transportu. Visnik Dnipropetrovs'kogo nacional'nogo universitetu zaliznichnogo transportu [Science and Transport Progress. Bulletin of Dnipropetrovsk National University of Railway Transport], 2013, no. 1, pp. 133-138.
• Putyato A.V. Modelirovanie naprjazhenno-deformirovannogo sostojanija zheleznodorozhnoj cisterny pri udarnom nagruzhenii s uchetom narushenija kreplenija kotla k rame [Simulation of the stress-strain state of the railway tank at shock loading considering defects of boiler’s mounting to the frame]. Vestnik Sevastopol'skogo nacional'nogo tehnicheskogo universiteta [Bulletin of the Sevastopol National Technical University], 2011, no. 120, pp. 312-316.
• Emelyanov I.G., Mironov V.I., Yakushev A.V., Kuznetsov A.V. Kontaktnoe vzaimodejstvie kotla vagona-cisterny s lezhnevymi oporami [Contact interaction of boiler tank wagon with plank legs]. Izvestija Samarskogo nauchnogo centra Rossijskoj akademii nauk [Proceedings of the Samara Scientific Center of the Russian Academy of Sciences], 2011, vol. 13, no. 1(2), pp. 436-439.
• Radu S.M., Tănăsoiu B. Theoretical and experimental study of the bearing structure of tank wagon. Recent advances in telecommunications, signals and systems (Recent Advances in Electrical Engineering Series, Vol. 10), Lemesos, Cyprus, 2013, pp. 139-144.
• Voronin N.N., Katalnikov S.N., Plotnikov I.V. Metodika rascheta naprjazhenno-deformirovannogo sostojanija v zonah koncentracii naprjazhenij zheleznodorozhnyh cistern [The methodology of stress-strain state calculation in the stress concentration areas of rail tank cars]. Nauka i tehnika transporta [Transportation Science and Technology], 2003, no. 4, pp. 42-47.
• Putyato A.V., Belogub V.V., Arhutik I.I. Modernizacija kotla i ramy vagona-cisterny posle dlitel'noj jekspluatacii s ocenkoj ostatochnogo resursa [Modernization of the tank car boiler and frame after a long-term operation with the assessment of residual life]. Aktual'nye voprosy mashinovedenija [Topical questions of machine sciences], 2014, no. 3, pp. 192-195.
• Voropay V.S. Raschetno-jeksperimental'nyj metod obosnovanija sroka jekspluatacii vagonov [Calculation-experimental method for justify of the wagons life]. Vestnik Priazovskogo gosudarstvennogo tehnicheskogo universiteta. Serija: Tehnicheskie nauki [Bulletin of Azov State Technical University. Series: Engineering], 2015, vol. 2, no. 30, pp. 206-213.
• Moykin D.A. Opredelenie brakovochnyh harakteristik i vlijanie povrezhdenij na rabotosposobnost' vagonov-cistern [Defining of the acceptance characteristics and the impact of injuries on the tank cars availability]. Visnik Dnipropetrovs'kogo nacional'nogo universitetu zaliznichnogo transportu [Bulletin of Dnipropetrovsk National University of Railway Transport], 2005, no. 8, pp. 147-150.
• Saeedi M.A., Kazemi R., Azadi S. Improvement in the rollover stability of a liquid-carrying articulated vehicle via a new robust controller. Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering, 2016, paper 0954407016639204, 14 p.
• Talebitooti R., Shojaeefard M.H., Yarmohammadisatri, S. Shape design optimization of cylindrical tank using b-spline curves. Computers and Fluids, 2015, vol. 109, pp. 100-112.
• Shangguan W.B., Chen Y., Wang Q., Rakheja S. Simulation of a partly filled tank vehicle combination in TruckSim and tank design optimisation. International Journal of Heavy Vehicle Systems, (2016), vol. 23, no. 3, pp. 264-282.
• Gong-Zhong W., Xiao-Guang Y. Prediction of Transport Tanks Safety Based on General Regression Neural Network. Journal of Computational and Theoretical Nanoscience, 2015, vol. 12, no. 8, pp. 1560-1562.
• Gavrilov A.A., Vlasov Ju.L., Morozov N.A. Dinamicheskaja model' otnositel'nogo pokoja zhidkosti v avtocisterne pri ravnomernom dvizhenii po krivolinejnomu uchastku dorogi [Dynamic model of relative balance of liquid in the tanker at uniform motion on the curvilinear site of the road]. Vestnik Orenburgskogo gosudarstvennogo universiteta [Herald of the Orenburg State University], 2014, vol. 10, no. 171, pp. 44-48
• Glushhenko V.V., Podrigalo M.A., Abramov D.V. Ocinjuvannja stijkosti avtomobiliv-cistern proti perekidannja v poperechnij ploshhini [Evaluation of tank-truck sustainability to prevent tipping in the transverse plane]. Zbirnik naukovih prac' Nacional'noi akademii Nacional'noi gvardii Ukraini [Proceedings of the National Academy of the National Guard of Ukraine], 2016, no. 1(27), pp. 13-19.
• Kulakovskiy B.L., Lahvich V.V., Kazutin E.G. Issledovanie pokazatelej ustojchivosti pozharnoj avtocisterny protiv oprokidyvanija i zanosa [Research of rollover stability and skid indicators for fire tanker]. Vestnik Komandno-inzhenernogo instituta MChS Respubliki Belarus' [Herald of the Institute for Command Engineers of the Ministry of Emergency Situations of the Republic of Belarus], 2014, no. 1(19), pp. 59-66.
• Kulakovskiy B.L., Maksimov P.V. Ustojchivost' avtocisterny protiv zanosa i oprokidyvanija pri dvizhenii po krugu s poperechnym uklonom [Stability of tank against overturning and skidding when driving in a circle with a cross slope]. Vestnik Komandno-inzhenernogo instituta MChS Respubliki Belarus' [Herald of the Institute for Command Engineers of the Ministry of Emergency Situations of the Republic of Belarus], 2010, no. 2(12), pp. 26-33.
• Romero J., Betanzo-Quezada E., Lozano-Guzman A. A Methodology to Assess Road Tankers Rollover Trend During Turning. SAE International Journal of Commercial Vehicles, 2013, vol. 6, no. 1, pp. 93-98.
• Bottiglione F., Mantriota G. Field tests and validation of dynamical models of tank vehicles Part II: experimental tests and results. International Journal of Heavy Vehicle Systems, 2012, vol. 19, no. 1, pp. 23-39.
• Salem M.I., Mucino V.H., Saunders E., Gautam M., Lozano-Guzman A. Lateral sloshing in partially filled elliptical tanker trucks using a trammel pendulum. International Journal of Heavy Vehicle Systems, 2009, vol. 16, no. 1-2, pp. 207-224.
• Li X.S., Zheng X.L., Ren Y.Y., Wang Y.N., Cheng Z.Q. Study on driving stability of tank trucks based on equivalent trammel pendulum for liquid sloshing. Discrete dynamics in nature and society, 2013, vol. 2013, article ID 659873. 15 p.
• Yang X., Gao J. Compactly modelling and analysing the roll dynamics of a partly filled tank truck. International Journal of Heavy Vehicle Systems, 2016, vol. 23, no. 1, pp. 81-105.
• Cammarata A., La Rosa G., Pellegrino A., Risitano A. Load movement control system for rollover risk reduction of tanker trucks. International Journal of Heavy Vehicle Systems, 2011, vol. 18, no. 3, pp. 303-321.
• Kolaei A., Rakheja S., Richard M. J. An efficient methodology for simulating roll dynamics of a tank vehicle coupled with transient fluid slosh. Journal of Vibration and Control, 2016, paper 1077546315627565, 16 p.
• Ashtiani I. H., Kolaei A., Abedi M., Rakheja S. Application of linear slosh theory on stability of the B-train combinations. / The Dynamics of Vehicles on Roads and Tracks: Proceedings of the 24th Symposium of the International Association for Vehicle System Dynamics (IAVSD 2015), Graz, Austria, CRC Press, 2016, pp. 327-336.
• Azadi S., Jafari A., Samadian M. Effect of parameters on roll dynamic response of an articulated vehicle carrying liquids. Journal of Mechanical Science and Technology, 2014, vol. 28, no. 3, pp. 837-848.
• Jafari S., Azadi M. Roll Dynamic Response of an Articulated Vehicle carrying liquids. International Journal of Automotive Engineering, 2013, vol. 3, no 3, pp. 508-522.
• Glushhenko V.V., Podrigalo M.A., Klec D.M., Dubinin E.O., Abramov D.V., Sergienko O.Ju. Eksperimental'ne doslidzhennja parametriv stijkosti ta dinamichnosti avtomobil'nih cistern u dorozhnih umovah [Experimental study of parameters of dynamics and stability for tank trucks on the roads]. Zbirnik naukovih prac' Nacional'noi akademii Nacional'noi gvardii Ukraini [Proceedings of the National Academy of the National Guard of Ukraine], 2014, no. 1, pp. 57-62.
• Mohd I. M. A., Nordin M. N. A., Mahmud M. S., Azma P., Fudhail A. M., Zin M. R. M., Razali N., Shaharuzaman M. A., Nuri N. R. M. Experimental Investigation on the Effect of Container Geometry Change to Liquid Sloshing. Applied Mechanics and Materials, 2012, vol. 165, pp. 160-164.
• Yan G., Rakheja S. Straight-line braking dynamic analysis of a partly filled baffled and unbaffled tank truck. Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering, 2009, vol. 223, no. 1, pp. 11-26.
• Gridnev S.Yu., Budkovoy A.N. Modelling of fluctuations of beam systems at the transitional modes of the movement of vehicles carrying liquids. Scientific Herald of the Voronezh State University of Architecture and Civil Engineering, Construction and Architecture, 2015, no. 2(26), pp. 48-61.
• Gridnev S.Ju., Budkovoy A.N. Ocenka dinamicheskogo vozdejstvija avtomobilja na put' pri tormozhenii i razgone s uchetom kinematicheskogo vozmushhenija [Evaluation of the car dynamic effects on the road when braking and acceleration, taking into account the kinematic perturbations]. Izvestija Kazanskogo gosudarstvennogo arhitekturno-stroitel'nogo universiteta [Proceedings of the Kazan State Architectural University], 2012. no. 4, pp. 409-415.
• Zinko R., Lozovy i., Dzelendzyak O., Burnic'kij S Doslidzhennja dinamiki ruhu avtobetonozmishuvacha z urahuvannjam harakteristik dviguna [Research of concrete mixer truck dynamics motion by engine descriptions]. Visnik Ternopil's'kogo derzhavnogo tehnichnogo universitetu [Bulletin of the Ternopil State Technical University], 2010, vol. 15, no. 2. pp. 159-163.
• Kuznetsova M.G . Analiz vlijanija peremeshhenija zhidkogo gruza v rezervuarah cistern na kinematicheskie i dinamicheskie parametry avtomobilja pri tormozhenii [Analysis of liquid cargo movement in road tanks reservoirs influence on the automobile kinematic and dynamic parameters at its braking]. Aktual'nye voprosy mashinovedenija [Topical questions of machine sciences], 2014, no 3, pp. 201-204.
• Dodge F.T. The new “Dynamic behavior of liquids in moving containers”. San Antonio, Southwest Research Institute, 2000. 195 p.
• Shimanovskij A.O. Modificirovannaja diskretno-massovaja model' cisterny s zhidkost'ju [Modified discrete-mass model of tank with liquid]. Mehanika , nauchnye issledovanija i uchebno-metodicheskie razrabotki [Mechanics, scientific researches and methodical development], 2011, vol. 5, pp. 163-165.
• Gridnev S.Ju., Budkovoy A.N. Sopostavlenie rezul'tatov rascheta kolebanij balochnoj sistemy pri perehodnyh rezhimah dvizhenija avtocistern s jeksperimen-tal'nymi dannymi [Comparisson of calculation results of beam system vibration during tank lorries transient travel with the experimental findings]. Stroitel'naja mehanika i konstrukcii [Structural mechanics and construction], 2014, no. 1(9), pp. 89-95.
• Shimanovskij A. Oscillations of partially filled tanker truck at its braking. Engineering for rural development, 2016, vol. 15, pp. 1156-1161.
• Fleissner F., Lehnart A., Eberhard P. Dynamic simulation of sloshing fluid and granular cargo in transport vehicles. Vehicle System Dynamics, 2010, vol. 48, no. 1, pp. 3-15.
• Lehnart A., Fleissner F., Eberhard P. Simulating Tank Vehicles with Sloshing Liquid Load. Simpack News, 2010, vol. 9, pp. 10-12.
• Cheli F., D’Alessandro V., Premoli A., Sabbioni E. Simulation of sloshing in tank trucks. International Journal of Heavy Vehicle Systems, 2013, vol. 20, no. 1, pp. 1-18.
• Wasfy T. M., O’Kins J., Smith S. Experimental Validation of a Coupled Fluid-Multibody Dynamics Model for Tanker Trucks. SAE International Journal of Commercial Vehicles, 2009, vol. 1, no. 1, pp. 71-88.
• Koulocheris D. V., Vossou C. G. Computational assessment of a cylindrical tank vehicle structural integrity. Proceeding of 11th HSTAM International Congress on Mechanics. Athens, Greece, 2016. 9 p.
• Lengvarsky P., Pástor M., Bocko J. Static Structural Analysis of Water Tank. American Journal of Mechanical Engineering, 2015, vol. 3, no. 6, pp. 230-234.
• Papadogiannis A., Chondros T. Road tanker design for axle load-share and lateral stability. Izvestija vysshih uchebnyh zavedenij. Mashinostroenie [Proceedings of the higher educational institutions. Engineering], 2013, no. 5, pp. 49-59.
• Demyanushko I.V., Starostin A.I. Raschet na prochnost' korpusa avtocisterny s ispol'zovaniem MKJe [Calculating of the strength of hull road tanker using FEM]. Voprosy stroitel'noj mehaniki i nadezhnosti mashin i konstrukcij. [Problems of Structural Mechanics and Reliability of Machines and Constructions]. Moscow, MADI, 2012, pp. 16-26.
• Myasnitskiy R.N. Razrabotka raschetnyh modelej i metodov ocenki raboto-sposobnosti cistern nesushhej konstrukcii. Avtoref. dis. kand. tehn. nauk [The development of computational models and performance evaluation methods for tanks with load-bearing structure. Cand. eng. sci. thesis diss.], Moscow, 2009, 20 p.
• Golovchenko V.I., Ivanina N.L. Osnovnye polozhenija rascheta kreplenija cisterny k shassi avtomobilja avtotoplivozapravshhika [The main provisions for the calculation of fixing the tank to the bowser chassis]. Vestnik NTU "HPI": Mashinovedenie i SAPR [Herald of NTU "KhPI": Knowing machines and CAD systems], 2012, no. 22. pp. 40-47.
• Baburchenkov M.F. Jeffektivnaja dlina stenki obechajki avtocisterny [The effective length of the tank shell wall]. Gruzovik [Commercial Vehicle], 2012, no 8, pp. 26-32.
• Balyakov D.F. Analiz nagruzhenija ustrojstv raskreplenija cisterny s zhidkim azotom metodom konechnyh jelementov [Analysis of fixing device loading for tank with liquid nitrogen by finite element method]. Reshetnevskie chtenija [Reshetnev readings], 2015, vol. 1, no. 19. pp 318-320.
• Tlyasheva R.R., Vanchuhin P.N. Modelirovanie avarij avtocisterny [Modeling of tanker accidents]. Neftegazovoe delo [Oil and gas business], 2006, vol. 4; no. 2. pp. 142-145.
• Vanchuhin P.N., Kuzeev I.R., Tlyasheva R.R. Modelirovanie dorozhno-transportnogo proisshestvija avtocisterny [Modelling a tanker traffic accident]. Ostatochnyj resurs neftegazovogo oborudovanija [The residual life of equipment for oil and gas], 2007, no. 2. pp. 77-83.
• Gordleev S.D. Metodika ocenki ustalostnoj dolgovechnosti avtomobil'nyh cistern, perevozjashhih zhidkoe toplivo [Methods of assessing the fatigue life for road tankers carrying fuel oil]. Trudy CNII im. akad. A.N. Krylova [Proceedings of Krylov Shipbuilding Research Institute], 2013, no. 75(359), pp. 125-131.
• Larin O.O., Grinchenko K.E. Viznachennja pokaznikiv nadijnosti napivprichepu avtocisterni v ekspluatacii metodami komp’juternoi mehaniki [Definition of reliability parameters tanker of semitrailer in exploitation by computer mechanics]. Visnik NTU «HPi»: Serija "Novi rishennja u suchasnih tehnologijah" [Herald of NTU "KhPI": New solutions in modern technology], 2015, no. 39, pp. 47-55.
• Larin O.O., Grinchenko K.E. Kolivannja dvovisnoi avtocisterni z ura-huvannjam efektu zapiznennja vipadkovogo zburennja [Vibrations of a biaxial tanker with account time lag effects of random excitation]. Visnik NTU «HPi». Serija: Dinamika ta micnist' mashin [Herald of NTU "KhPI": Dynamics and strength of machines], 2014, no. 1(58), pp. 44-60.
• Shariyat M., Khodabandeh T. Comparison of the stress distributions of liquid gas road tankers with various configurations during braking, cornering, and vertical bump maneuvers. International Journal of Automotive Technology, 2013, vol. 14, no. 2, pp. 301-311.
• Shimanovskij A.O. Konstruktivnye reshenija, obespechivajushhie bezopasnost' dvizhenija cistern (obzor) [Tank vehicles safety movement designs (review)]. Problemy mashinostroenija i avtomatizacii [Engineering and Automation Problems], 2009, no. 1. pp. 44-59.
• Shimanovskij A.O., Putyato A.V., Jakubovich O.I. Analiz jeffektivnosti dempfirovanija kolebanij zhidkosti v rezervuarah cistern [The analysis of damping efficiency for liquid sloshing in tanks]. Mehanika , nauchnye issledovanija i uchebno-metodicheskie razrabotki [Mechanics, scientific researches and methodical development], 2009, no. 3, pp. 144-149.
• Shimanovskij A. O., Kuznecova M.G. Gidrodinamicheskaja nagruzhennost' peregorodok cistern pri transportirovke zhidkostej s razlichnymi reologicheskimi svojstvami [Hydrodynamic loading of internal baffles in tanks while transporting liquids with various rheological features]. Materialy. Tehnologii. Instrumenty [Materials. Technologies. Instruments], 2013, no. 4, pp. 18-21.
• Kuznetsova M.G. Dempfirovanie kolebanij zhidkostej v transportnyh rezervuarah s peregorodkami [Liquid oscillations damping in road tanks with baffles]. Sovremennye tehnologii. Sistemnyj analiz. Modelirovanie [Modern technologies. System analysis. Modeling], 2013, no. 2(38), pp. 24-28.
• Shimanovskij A., Kuznetsova M., Sapietová A. Modeling of Newtonian and Non-Newtonian Liquid Sloshing in Road Tanks while Braking. Applied Mechanics and Materials, vol. 611, pp. 137-144.
• Kuzniatsova M., Shimanovskij A. Definition of Rational Form of Lateral Perforated Baffle for Road Tanks. Procedia Engineering, 2016, vol. 134, pp. 72-79.
• Vysotskiy M.S., Pleskachevsky Ju.M., Shimanovskij A.O., Kuznetsova M.G. Obespechenie bezopasnosti dvizhenija avtocistern na osnove optimizacii konstrukcii kuzova [Provision of road tanker traffic safety on the base of body optimisation]. Mehanika mashin, mehanizmov i materialov [Mechanics of machines, mechanisms and materials], 2012, no. 3-4(20-21), pp. 142-148.