Modeling of parametrically excited vibrating screen

L. I. Slepyan; V. I. Slepyan

doi:10.1088/1742-6596/451/1/012026

Modeling of parametrically excited vibrating screen

L. I. Slepyan, V. I. Slepyan

Aliyah Project

Loginov and Partners Mining Company

Research output: Contribution to journal › Conference article › peer-review

7 Scopus citations

Abstract

The dynamic model of a RR-based rectangular vibrating screen is considered as an initially stretched system of two equal masses connected by a linearly elastic spring. Due to the geometric nonlinearity longitudinal oscillations of the masses and lateral oscillations of the spring are coupled. Under certain conditions, when the masses are subjected by a self-equilibrated periodic longitudinal action, the parametric resonance arises which amplitude is bounded by the nonlinearity. The dynamic problem is reduced to a system of two ordinary nonlinear equations. An exact analytical solution is found existing under some conditions. In a general case, the dynamics of this system is considered numerically. The dissipation in this process is estimated. A comparative analysis of the dynamics of conventional and PR-based screeners is presented. Based on the analysis of the model a vibrating screen machine was designed, built and set up in LPMC. The machine operated as predicted.

Original language	English
Article number	012026
Journal	Journal of Physics: Conference Series
Volume	451
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/451/1/012026
State	Published - 2013
Event	International Symposium on Dynamic Deformation and Fracture of Advanced Materials, D2FAM 2013 - Loughborough, United Kingdom Duration: 9 Sep 2013 → 11 Sep 2013

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10.1088/1742-6596/451/1/012026

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AB - The dynamic model of a RR-based rectangular vibrating screen is considered as an initially stretched system of two equal masses connected by a linearly elastic spring. Due to the geometric nonlinearity longitudinal oscillations of the masses and lateral oscillations of the spring are coupled. Under certain conditions, when the masses are subjected by a self-equilibrated periodic longitudinal action, the parametric resonance arises which amplitude is bounded by the nonlinearity. The dynamic problem is reduced to a system of two ordinary nonlinear equations. An exact analytical solution is found existing under some conditions. In a general case, the dynamics of this system is considered numerically. The dissipation in this process is estimated. A comparative analysis of the dynamics of conventional and PR-based screeners is presented. Based on the analysis of the model a vibrating screen machine was designed, built and set up in LPMC. The machine operated as predicted.

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Modeling of parametrically excited vibrating screen

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