MODELING OF EQUIVALENT STIFFNESS OF A MAGNETIC SPRING OF VIBRATION EXCITER BASED ON COAXIAL-LINEAR MOTOR

MODELING OF EQUIVALENT STIFFNESS OF A MAGNETIC SPRING OF VIBRATION EXCITER BASED ON COAXIAL-LINEAR MOTOR

Purpose. The research of the influence of value and direction of current on the equivalent spring magnetic force based on coaxial-linear motor (CLM – MS). Methodology. We carried out investigation of the equivalent harshness of magnetic spring with determination of electromechanical propulsion perfo...

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Autores principales: G.M. Golenkov, D.I. Parkhomenko
Formato: article
Lenguaje:EN
RU
UK
Publicado: National Technical University "Kharkiv Polytechnic Institute" 2015
Materias:
stiffness coefficient
magnetic spring
vibration exciter
coaxial-linear motor
Electrical engineering. Electronics. Nuclear engineering
TK1-9971
Acceso en línea:https://doaj.org/article/307b3b566ef546ed9a9389628a69cae4
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spelling oai:doaj.org-article:307b3b566ef546ed9a9389628a69cae42021-12-02T17:57:35ZMODELING OF EQUIVALENT STIFFNESS OF A MAGNETIC SPRING OF VIBRATION EXCITER BASED ON COAXIAL-LINEAR MOTOR2074-272X2074-272Xhttps://doaj.org/article/307b3b566ef546ed9a9389628a69cae42015-12-01T00:00:00Zhttp://eie.khpi.edu.ua/article/view/54422/50765https://doaj.org/toc/2074-272Xhttps://doaj.org/toc/2074-272XPurpose. The research of the influence of value and direction of current on the equivalent spring magnetic force based on coaxial-linear motor (CLM – MS). Methodology. We carried out investigation of the equivalent harshness of magnetic spring with determination of electromechanical propulsion performance characteristics by the methods of computer modeling and experimental research of physical model of CLM – MS. The modeling of magnetic spring of CLM – MS is carried out by the finite-element method. The challenge is met as an axisymmetric challenge in cylindrical co-ordinates in magnetostatic approach. The experimental investigattion of the propulsion performance characteristics of magnetic spring is carried out on the test bench. Results. After the computer modeling and the experimental investigation of the electromechanical propulsion performance characteristics of magnetic spring the expressions of equivalent stiffness coefficient depending on the current in winding are obtained. The results of computer modeling are confirmed experimentally. Originality. The determination of equivalent stiffness coefficient of magnetic spring of vibration exciter based on coaxial-linear motor. Practical value. The obtained determination of equivalent stiffness coefficient of magnetic spring may be used in process of designing of vibration machines with devices for change of natural oscillation frequency. G.M. GolenkovD.I. ParkhomenkoNational Technical University "Kharkiv Polytechnic Institute"articlestiffness coefficientmagnetic springvibration excitercoaxial-linear motorElectrical engineering. Electronics. Nuclear engineeringTK1-9971ENRUUKElectrical engineering & Electromechanics, Iss 6, Pp 20-23 (2015)
institution DOAJ
collection DOAJ
language EN
RU
UK
topic stiffness coefficient
magnetic spring
vibration exciter
coaxial-linear motor
Electrical engineering. Electronics. Nuclear engineering
TK1-9971
spellingShingle stiffness coefficient
magnetic spring
vibration exciter
coaxial-linear motor
Electrical engineering. Electronics. Nuclear engineering
TK1-9971
G.M. Golenkov
D.I. Parkhomenko
MODELING OF EQUIVALENT STIFFNESS OF A MAGNETIC SPRING OF VIBRATION EXCITER BASED ON COAXIAL-LINEAR MOTOR
description Purpose. The research of the influence of value and direction of current on the equivalent spring magnetic force based on coaxial-linear motor (CLM – MS). Methodology. We carried out investigation of the equivalent harshness of magnetic spring with determination of electromechanical propulsion performance characteristics by the methods of computer modeling and experimental research of physical model of CLM – MS. The modeling of magnetic spring of CLM – MS is carried out by the finite-element method. The challenge is met as an axisymmetric challenge in cylindrical co-ordinates in magnetostatic approach. The experimental investigattion of the propulsion performance characteristics of magnetic spring is carried out on the test bench. Results. After the computer modeling and the experimental investigation of the electromechanical propulsion performance characteristics of magnetic spring the expressions of equivalent stiffness coefficient depending on the current in winding are obtained. The results of computer modeling are confirmed experimentally. Originality. The determination of equivalent stiffness coefficient of magnetic spring of vibration exciter based on coaxial-linear motor. Practical value. The obtained determination of equivalent stiffness coefficient of magnetic spring may be used in process of designing of vibration machines with devices for change of natural oscillation frequency.
format article
author G.M. Golenkov
D.I. Parkhomenko
author_facet G.M. Golenkov
D.I. Parkhomenko
author_sort G.M. Golenkov
title MODELING OF EQUIVALENT STIFFNESS OF A MAGNETIC SPRING OF VIBRATION EXCITER BASED ON COAXIAL-LINEAR MOTOR
title_short MODELING OF EQUIVALENT STIFFNESS OF A MAGNETIC SPRING OF VIBRATION EXCITER BASED ON COAXIAL-LINEAR MOTOR
title_full MODELING OF EQUIVALENT STIFFNESS OF A MAGNETIC SPRING OF VIBRATION EXCITER BASED ON COAXIAL-LINEAR MOTOR
title_fullStr MODELING OF EQUIVALENT STIFFNESS OF A MAGNETIC SPRING OF VIBRATION EXCITER BASED ON COAXIAL-LINEAR MOTOR
title_full_unstemmed MODELING OF EQUIVALENT STIFFNESS OF A MAGNETIC SPRING OF VIBRATION EXCITER BASED ON COAXIAL-LINEAR MOTOR
title_sort modeling of equivalent stiffness of a magnetic spring of vibration exciter based on coaxial-linear motor
publisher National Technical University "Kharkiv Polytechnic Institute"
publishDate 2015
url https://doaj.org/article/307b3b566ef546ed9a9389628a69cae4
work_keys_str_mv AT gmgolenkov modelingofequivalentstiffnessofamagneticspringofvibrationexciterbasedoncoaxiallinearmotor
AT diparkhomenko modelingofequivalentstiffnessofamagneticspringofvibrationexciterbasedoncoaxiallinearmotor
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