Cite the paper
V.I. Bakhshaliev (2016). Dynamical Analyses of Piston Machines Used in Oil Industry. Mechanics, Materials Science & Engineering, Vol 5. doi:10.13140/RG.2.1.1837.46445
Authors: V.I. Bakhshaliev
ABSTRACT. The investigation of a complex problems with taking into account of a friction, oscillation and impact processes in mechanisms of piston machines, does possible the all-round decision of the problem of increase of their reliability and durability. In this work, based on the dynamic analysis of the crank-piston mechanisms the method for definition of the parameters of longitudinal vibration of a connecting rod of piston machines is developed. The dangerous sections of a “floating” connecting rod are determined.
Keywords: dynamics, mechanical oscillations, stresses, durability, piston machine
 Rangwala A.S. Reciprocating Machinery Dynamics, New Age International Publishers, Delhi, 2006
 Davitashvili N., Bakhshaliev V. Dynamics of Crank – Piston Mechanisms. Springer Publisher, 242 p., 2016
 Liong R.T., Proppe C. Application of a Cohesive Zone Model for the Investigation of the Dynamic Behavior of a Rotating Shaft with a Transverse Crack. Proc. 8th IFToMM International Conference on Rotor dynamics 12.-15.09, Seoul, Korea, 2010
 Yanovsky Yu.G., Zgaevskii V.E. Mechanical properties of high elastic polymer matrix composites filled with rigid particles: Nanoscale consideration of the interfacial problem. Composite Interfaces, v.11, N3, pp. 245-261, 2004
 Vakhrouchev A.V. Computer simulation of nanoparticles formation, moving, interaction and self-organization. Journal of Physics: Conference Series. V. 61. pp. 26-30, 2007
 Galin L.A. Contact problems of the theory of elasticity and viscoelasticity. Moscow, “Science” publishing house, 304 pp. 2004 (in Russian)
 Bakhshaliev V.I. The Problem of Mathematical Simulation of Rolling Friction, Journal of Friction and Wear, 2009, Vol. 30, No. 5, Allerton Press, Springer, Inc., pp. 305–308, 2009
 Bakhshaliev V.I. Mechanics of Piston Machines. – Lambert Academic Publishing, Germany, 312 p., 2011
 Plastinin P.I. Piston compressors. Colos publisher, Moscow, 711p., 2008 (in Russian)
 Goryacheva I.G., Dobychin M.N., Soldatenkov I.A., Bogdanov V.M., Zakharov S.M. Simulation of Wheel/Rail Contact and Wear in Curved Track, Proceeding of International Heavy Haul Association Conference ‘‘Wheel-Rail Interface’’, Vol.1, pp. 215-220, 1999
 Popov V.L. Contact Mechanics and Friction. Physical principles and applications. Springer-Verlag, Berlin, Heidelberg, 2010
 Bakhshaliev V.I. Analysis of the accuracy of the crank-slider mechanism of piston machines with clearances. J. Machinery manufacture and reliability, No.3, pp. 1-4, Allerton Press, 2004
 Galakhov M.A, Usov P.P. Differential and integral equations of the mathematical theory of a friction – Moscow, “Nauka” publishing house, 152 p., 2006 (in Russian)
 Davitashvili N. Mgebrishvili N. etc. Dynamic investigation of hinged mechanisms by taking into account wear and clearances in kinematics pears. Inter. S. J. “Problems of Applied Mechanics”. Tbilisi, N 4(25), pp. 47-57, 2006
 Hetzler H. On the influence of contact mechanics on friction induced flutter instability. In Proc. in Applied Mathematics and Mechanics (PAMM), Volume 9, Number 1, p. 275-276, 2009
 Boyaci A., Seemann W., Proppe C. Nonlinear stability analysis of rotor-bearing systems. In Proc. in Applied Mathematics and Mechanics (PAMM), Volume 9, Number 1, p. 279-280, 2009
Mechanics, Materials Science & Engineering Journal by Magnolithe GmbH is licensed under a Creative Commons Attribution 4.0 International License.
Based on a work at www.mmse.xyz.