Open AccessANALYSIS OF THE STRESS-STRAIN STATE OF AN ASYNCHRONOUS MOTOR WITH A SHORT-CIRCUITED ROTOR UNDER AXIAL LOADS
Author(s) -
Maksim Kolesnik,
С. Н. Иванов
Publication year - 2021
Language(s) - English
Resource type - Conference proceedings
DOI - 10.30987/conferencearticle_61c997ede47aa6.15199092
Subject(s) - asynchronous communication , displacement (psychology) , stress (linguistics) , rotor (electric) , finite element method , computer science , actuator , state (computer science) , stress–strain curve , induction motor , mechanical engineering , engineering , structural engineering , control engineering , electrical engineering , voltage , algorithm , psychology , computer network , linguistics , philosophy , psychotherapist , artificial intelligence
A comparative description of the most popular and professional 3D modeling packages using the finite element method in solving problems is given. The choice of using the SolidWorks Simulation package at this stage of research is justified. Its main advantages are given. A 3D model of a real functioning asynchronous motor has been designed and modified to perform linear displacement operations. A static analysis of the strength of an asynchronous motor with linear displacement of the actuator using the plug-in module SolidWorks Simulation was performed. A direct analysis of the obtained result of the stress-strain state of the engine is carried out. Conclusions are drawn about its suitability to work with axial loads. The main directions of subsequent research of asynchronous motors with a short-circuited rotor under axial loads are determined.