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

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

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 b...

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Main Authors: Soloviev Arkady, Matrosov Andrey, Panfilov Ivan, Meskhi Besarion, Polushkin Oleg, Rudoy Dmitry, Chebanenko Valery
Format: Article
Language:English
Published: EDP Sciences 2020-01-01
Series:E3S Web of Conferences
Online Access:https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/70/e3sconf_itse2020_05017.pdf
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spelling doaj-2458a7ab86d54c14a6dcf06a1f4b2cb92021-04-02T16:16:33ZengEDP SciencesE3S Web of Conferences2267-12422020-01-012100501710.1051/e3sconf/202021005017e3sconf_itse2020_05017Mathematical and laboratory modeling of resonant impact on the spike for the purpose of grain selectionSoloviev Arkady0Matrosov Andrey1Panfilov Ivan2Meskhi Besarion3Polushkin Oleg4Rudoy Dmitry5Chebanenko Valery6Don State Technical UniversityDon State Technical UniversityDon State Technical UniversityDon State Technical UniversityDon State Technical UniversityDon State Technical UniversitySouthern Scientific Center of the Russian Academy of SciencesMathematical 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.https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/70/e3sconf_itse2020_05017.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Soloviev Arkady
Matrosov Andrey
Panfilov Ivan
Meskhi Besarion
Polushkin Oleg
Rudoy Dmitry
Chebanenko Valery
spellingShingle Soloviev Arkady
Matrosov Andrey
Panfilov Ivan
Meskhi Besarion
Polushkin Oleg
Rudoy Dmitry
Chebanenko Valery
Mathematical and laboratory modeling of resonant impact on the spike for the purpose of grain selection
E3S Web of Conferences
author_facet Soloviev Arkady
Matrosov Andrey
Panfilov Ivan
Meskhi Besarion
Polushkin Oleg
Rudoy Dmitry
Chebanenko Valery
author_sort Soloviev Arkady
title Mathematical and laboratory modeling of resonant impact on the spike for the purpose of grain selection
title_short Mathematical and laboratory modeling of resonant impact on the spike for the purpose of grain selection
title_full Mathematical and laboratory modeling of resonant impact on the spike for the purpose of grain selection
title_fullStr Mathematical and laboratory modeling of resonant impact on the spike for the purpose of grain selection
title_full_unstemmed Mathematical and laboratory modeling of resonant impact on the spike for the purpose of grain selection
title_sort mathematical and laboratory modeling of resonant impact on the spike for the purpose of grain selection
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2020-01-01
description 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.
url https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/70/e3sconf_itse2020_05017.pdf
work_keys_str_mv AT solovievarkady mathematicalandlaboratorymodelingofresonantimpactonthespikeforthepurposeofgrainselection
AT matrosovandrey mathematicalandlaboratorymodelingofresonantimpactonthespikeforthepurposeofgrainselection
AT panfilovivan mathematicalandlaboratorymodelingofresonantimpactonthespikeforthepurposeofgrainselection
AT meskhibesarion mathematicalandlaboratorymodelingofresonantimpactonthespikeforthepurposeofgrainselection
AT polushkinoleg mathematicalandlaboratorymodelingofresonantimpactonthespikeforthepurposeofgrainselection
AT rudoydmitry mathematicalandlaboratorymodelingofresonantimpactonthespikeforthepurposeofgrainselection
AT chebanenkovalery mathematicalandlaboratorymodelingofresonantimpactonthespikeforthepurposeofgrainselection
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