We consider different methods of modeling impact in vibroimpact systems by contact interaction force which can be regarded as elastic force as well as force corresponding to the Hertz law and with the help of the boundary condition method by using the coefficient of restitution. Comparison of the results of the modeling by means of these methods is performed, and recommendations for their application are proposed.
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References
V. I. Babitskii, Theory of Vibroimpact Systems: Approximate Methods [in Russian], Nauka, Moscow (1978).
A. P. Ivanov, Dynamics of Systems with Mechanical Collisions [in Russian], Mezhdunarodnaya Programma Obrazovaniya, Moscow (1997).
V. A. Bazhenov, O. S. Pogorelova, T. G. Postnikova, and O. A. Luk’yanchenko, “Numerical investigations of the dynamic processes in vibroimpact systems in modeling impacts by a force of contact interaction,” Strength Mater., 40, No. 6, 656–662 (2008).
W. Goldsmith, Impact. The Theory and Physical Behavior of Colliding Solids [Russian translation], Stroizdat, Moscow (1965).
C. Johnson, Mechanics of Contact Interactions [Russian translation], Mir, Moscow (1989).
B. V. Gusev and V. G. Zazimko, Vibration Technology of Concretes [in Russian], Budivel’nyk, Kiev (1991).
I. I. Nazarenko, Machines for Building Materials Industry: Handbook [in Ukrainian], KNUBA, Kiev (1999).
Recommendations on the Vibroforming of Concrete Products [in Russian], NIIZhB, Moscow (1986).
A. V. Dukart, History of the Theory of the Impact Absorbers and Devices with Impact Elements and Their Application for the Vibroprotection of the Building Structures and Constructions [in Russian], Author’s Abstract of the Doctor Degree Thesis (Tech. Sci.), Moscow (1993).
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Translated from Problemy Prochnosti, No. 4, pp. 69–77, July–August, 2009.
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Bazhenov, V.A., Pogorelova, O.S., Postnikova, T.G. et al. Comparative analysis of modeling methods for studying contact interaction in vibroimpact systems. Strength Mater 41, 392–398 (2009). https://doi.org/10.1007/s11223-009-9143-2
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DOI: https://doi.org/10.1007/s11223-009-9143-2