Experimental determination of vibration jaw crusher perfomance and characteristic of the crusher two-motor drive in no-load and nominal mode of operation
About authors
- 1 — Postgraduate student Saint Petersburg State Mining Institute (Technical University)
- 2 — Ph.D., Dr.Sci. Professor Saint Petersburg State Mining Institute (Technical University)
Abstract
The paper is devoted to the experimental study of jaw crusher characteristics under condition that nonidentity of subsystems electro-mechanical parameters causes the distortion of the nominal mode of the jaw crusher operation. Experimental data obtained have confirmed basic statements of a self-synchronization theory. The initial phase shift of jaws oscillations is shown to result in a substantial decrease in the crusher productivity and a significant increase in the specific power consumption.
Область исследования:
(Archived) Geotechnical engineering, powerengineering and automation
References
- Archipov M.N., Nagaev R.F.. Dynamic of nonimpact mode of vibration jaw crusher // Proceeding of the
- Mining Institute 1995. T. 141. P.140-148. 2. Blechman I.I. Vibration mechanic Moscow: Fizmatlit, 1994.
- Lavrov B.P., Tyrkin V.Y. Theoretical estimate of productivity of the vibration jaw crusher // Ore benefication. 1973. № 2. P.72-75.
- Tyagushev S.Y., Shonin O.B. An experimental test bench for study of electromechanical system of vibration jaw crusher // Study, science and engineering applications based on LabView and national Instruments technology, 2008. Moscow, 2008. P.38-42.
Similar articles
Developing a rational technology of utilization оf bio and oil slimes of the Kinef Ltd by an extraction оf useful components
2010 K. A. Moiseeva
Calculation of material streams of the pirometallurgical cycle of processing of copper sulphidic raw materials
2010 N. V. Danilova
Geotechnical engineering features of the estimation of stability of heavy constructions of designed cement works in Novorossiysk
2010 Yu. V. Khaliullina
The phenomenon of spontaneous termination of the discharge current and the establishment of fully-managed key elements of the plasma
2010 A. S. Mustafaev, S. A. Vysotskii, M. A. Cherkasova, M. A. Mamelkina