Publications of CJSC Technologiya Market
30.Stanovskoy V.V., Tsyganov O.A., Karpenko E.V. Domestic screw steering column. //Shipbuilding No.4-2020. p. 35.29. Leontiev M.Yu.1, Rayevsky V.A.2, Smolovik A.E. Review of the advantages and disadvantages of Eccentric-Cycloidal engagement // Scientific journal "Actual problems of humanities and natural sciences". // Machine parts and lifting and transport equipment,Bauman Moscow State Technical University, Kaluga Branch, 2016. //https://cyberleninka.ru/journal/n/innovatsii?i=1060384
28. V.V.Stanovskoy, S.M. Kazakevicius, T.A. Remneva. Advantages of using eccentric cycloidal (EC) gearing in the main gears of vehicles (based on the results of comparative tests) // XII International Scientific and Technical Conference "Modern problems of mechanical engineering"
27. Stanovskoy V.V., Kazakevicius S.M., Kuznetsov N. R. A new type of gear engagement // Scientific journal "Innovations No.12 / 2013". - pp.117-120. //https://cyberleninka.ru/journal/n/innovatsii?i=1060384; https://maginnov.ru/ru/zhurnal/arhiv/2013/innovacii-n12-2013/
26. V.V. Stanovskoy, S.M. Kazakevicius, T.A. Remneva, V.M. Kuznetsov, A.M.Bubenchikov, N.R. Shcherbakov, J. Schmidt Two-stage gearbox based on eccentric-cycloidal gearing (ExCyGear gearing) // Bulletin of Mechanical Engineering – 2011. - No. 12, pp. 41-43.
25. S.M. Kazakyavichyus, V.V. Stanovskoy, T.A. Remneva et al. Perfomance of Eccentric – Cycloid Entgagement with Change in the Interaxial Distance^: Modification of Tooth Configuration //Russian Engineering Research, 2011. Vol. 31, No3. pp.197-199.
24. Kazakevicius S.M., Stanovskoy V.V., Remneva T.A. and others. The operability of the eccentric-cycloidal engagement and when changing the axial distance of the wheels. Modification of tops and depressions of teeth // Bulletin of Mechanical Engineering – 2011. - No. 3, pp. 7-9.
23. Bubenchikov A.M., Shcherbakov N.R., Stanovskoy V.V., Kazakevicius S.M., Remneva T.A. Mathematical modeling of rack and pinion gear operation with eccentric-cycloidal engagement // Computing technologies – 2010. – vol. 15. – No. 1. – pp. 53-59.
22. Shcherbakov N.R. Optimization of the parameters of a new engagement of wheels with curved teeth // Izvestiya Tomsk Polytechnic University. - 2009. – vol. 314. – No. 5. – pp. 244-246.
21. Bubenchikov A.M., Shcherbakov N.R. Mathematical modeling of dynamics of a new type of engagement in transfer mechanisms // Izvestiya Tomsk Polytechnic University. – 2009. – vol. 314. – No. 5. – pp. 241-243.
20. Shcherbakov N.R. A computer model of the dynamic state of a rack and pinion gear with a new type of engagement // Proceedings of Tomsk Polytechnic University. – 2009. – vol. 314. – No. 5. – pp. 246-250.
19. Stanovskoy V. V., Kazakevicius S.M., Remneva T.A., Kuznetsov V.M., Bubenchikov A.M., Shcherbakov N.R. Self-braking of an eccentric transmission with intermediate rolling elements // Bulletin of mechanical engineering. - 2009. – No. 5. – pp. 3-7.
18. Bubenchikov A.M., Shcherbakov N.R. Stanovskoy V.V., Kazakevicius S.M., Remneva T.A. Mathematical modeling of gearbox operation with cycloidal eccentric engagement // Computing technologies. - 2009. – vol. 14. – No. 2. – pp. 51-57.
17. Stanovskoy V.V., Kazakevicius S.M., Remneva T.A., Kuznetsov V.M. Eine neue Art des Zahneingriffes mit krummlingen Zahnen // Antriebstechnik – 2009. - № 11.- S. 78-81.
16. Shcherbakov N.R. Mathematical model of a planetary gear mechanism with eccentric-cycloidal engagement // Reports of the Tomsk State University of Control Systems and Radioelectronics. – 2009. – № 1 (19), Part 1. – pp. 77-81.
15. Bubenchikov A.M., Shcherbakov N.R. Mathematical modeling of the operation of an eccentric transmission with intermediate rolling elements and self-braking // Reports of the Tomsk State University of Control Systems and Radioelectronics. – 2009. – № 1 (19), Part 1 – pp. 65-71.
14. Shcherbakov N.R. Mathematical and computer modeling of the dynamic state of motion transmission systems // Abstract of the dissertation for the degree of Doctor of Physical and Mathematical Sciences - Tomsk,- 2009.- p.30.
13. Shcherbakov N.R. Mathematical modeling of the dynamic state of transfer mechanisms with cycloidal eccentric engagement // All-Russian Conference on Mathematics and Mechanics: materials of the All-Russian Conference / Vol. state University Tomsk, 2008. pp. 30-32.
12. Stanovskoy V.V., Kazakevicius S.M., Remneva T.A., Kuznetsov V.M. Eccentric-cycloidal gearing of gears and mechanisms based on it // Theory and practice of gears and reduction engineering : collection of dokl. scientific and technical conf. / IzhSTU. Izhevsk, 2008. pp. 148-152.
11. Kazakevicius S.M., Stanovskoy V.V., Remneva T.A., Bubenchikov A.M., Shcherbakov N.R. Calculation eccentric-cycloidal gearing of gears and mechanisms based on it // Theory and practice of gears and reduction engineering : collection of dokl. scientific and technical conf. / IzhSTU. Izhevsk, 2008. pp. 153-156.
10. Bubenchikov A.M., Shcherbakov N.R., Stanovskoy V.V., Kazakevicius S.M., Remneva T.A. Computer modeling of transfer mechanisms with cycloidal eccentric engagement // Computing and information technologies in science, technology and education: reports of the International Conference / Al-Farabi Kazakh National University. – Almaty, 2008. – pp. 307-311.
9. Bubenchikov A.M., Shcherbakov N.R. Geometric modeling of the motion of the contacting parts of the transmission mechanism in self-braking // Modern problems of differential geometry and general algebra: materials of the international conference. / Saratov State University. Saratov, 2008. pp. 74-75.
8. Shcherbakov N.R. Optimization of the geometry of eccentric-cycloidal engagement in terms of efficiency and contact stresses // Izvestiya vuzov. Physics. – 2008. – vol. 51. – No. 8/2. – pp. 288-293.
7. Shcherbakov N.R. Mathematical model of rack and pinion transmission operation with eccentric-cycloidal engagement // Izvestiya vuzov. Physics. – 2008. – vol. 51. – No. 8/2. – pp. 293-298.
6. Bubenchikov A.M., Shcherbakov N.R. Mathematical modeling of the operation of a planetary gear train with eccentric-cycloidal engagement // Izvestiya vuzov. Physics. - 2008. – vol. 51. – No. 8/2. – pp. 74-79.
5. Bubenchikov A.M., Shcherbakov N.R. Mathematical modeling of the transmission mechanism with eccentric-cycloidal engagement // Izvestiya vuzov. Physics.- 2008. – vol. 51. – No. 8/2. – pp. 79-84.
4. Stanovskoy V.V., Kazakevicius S.M., Remneva T.A., Kuznetsov V.M., Bubenchikov A.M., Shcherbakov N.R. A new type of engagement of wheels with curved teeth // Handbook. Engineering Magazine. – 2008. – № 9 (138). – Pp. 34-39.
3. Bubenchikov A.M., Shcherbakov N.R., Stanovskoy V.V., Kazakevicius S.M. Computer modeling of eccentric cycloidal-pinion transmission // Differential equations, theory of functions and applications: materials of the international Conference / Novosibirsk State University. Novosibirsk, 2007. pp. 562-563.
2. Bubenchikov A.M., Shcherbakov N.R., Stanovskoy V.V., Kazakevicius S.M., Remneva T.A. Mathematical modeling of self-braking eccentric transmission with intermediate rolling elements // Izvestiya vuzov. Physics. - 2007. – vol. 50. – No. 9/2. – pp. 35-41.
1. Stanovskoy V.V., Remneva T.A., Kazakevicius S.M. Transmissions with free rolling elements // Progressive Gears: collection of scientific papers. // Novouralsky State Technological Institute, Novouralsk, 2003. - pp.61-94.