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Mathematical and laboratory modeling of resonant impact on the spike for the purpose of grain selection

А. N. Soloviev, Andrey Matrosov, Ivan Panfilov, Besarion Meskhi, Oleg Polushkin, Dmitry Rudoy, В. А. Чебаненко

2020E3S Web of Conferences24 citationsDOIOpen Access PDF

Abstract

Mathematical and computer finite element model in the ACELAN package of resonant impact on a spike was developed and a full-scale experiment was carried out. Two installations are considered, one based on a cantilever, the free end of which acts on the spike, and the second is a semi-passive round bimorph. Excitation of vibrations is carried out using an actuator based on piezoceramic elements. In the first installation, low-frequency vibrations of the stem with a spike are excited and the resonance frequency is determined at which only an spike with grain performs intense vibrations. The second installation is designed to excite high-frequency vibrations at which resonant movements of the grains themselves arise. The purpose of both installations is to separate the grain from the spike using resonance phenomena.

Topics & Concepts

Spike (software development)VibrationCantileverAcousticsExcitationFinite element methodResonance (particle physics)PhysicsEngineeringStructural engineeringElectrical engineeringAtomic physicsSoftware engineeringMechanical Systems and EngineeringAerospace, Electronics, Mathematical ModelingMagnetic and Electromagnetic Effects
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