UDC 608.2, 004.021, 004.94
INCREASING THE EFFICIENCY OF CALCULATING THE PARAMETERS OF ACOUSTIC PATHS OF MAGNETOSTRICTION CONVERTERS OF MOVEMENT
Yu. N. Slesarev, PhD (technical sciences), full professor at the Department of computers and systems, PSTU, Penza; This email address is being protected from spambots. You need JavaScript enabled to view it.
A. A. Vorontsov, Ph.D.(technical sciences), associate Professor at the Department of computers and systems, PSTU, Penza; This email address is being protected from spambots. You need JavaScript enabled to view it.
S. V. Rodionov, post-graduate student at the Department of computers and systems, PSTU, Penza; This email address is being protected from spambots. You need JavaScript enabled to view it.
The article is devoted to modeling in magnetostriction converters of movements of magnetic fields, and also possible and recommended distances from a permanent magnet to a wave guide. The purpose of work is research of acoustic paths of magnetostriction converters of movement and realization in them a new way of calculation of possible and recommended distance from a permanent magnet to a wave guide by means of corresponding values of resultant intensity of a magnetic field. The objects of research are acoustic paths of magnetostriction converters of movement. In them theoretical and pilot studies of possible by definition and recommended distances from a permanent magnet to a wave guide are executed. The basic elements which are a part of acoustic paths, method of calculation of resultant intensity of a magnetic field are considered, mathematical modeling of magnetic fields is made. The way of calculation of resultant intensity of a magnetic field and admissible distance from a permanent magnet to a wave guide is offered. Modeling and calculation for the offered way of recommended and possible distances from a permanent magnet to a wave guide will allow to calculate at a stage of modeling the parameters of an acoustic path and magnetostriction converters of movements in general. It will allow to lower costs of the developed and upgraded magnetostriction converters of linear movements. In the end corresponding conclusions are made.
Key words: magnetostriction converter,recommended distance, mathematical model resulting intensity.