| Title |
Shaft Design by Kinetic Characteristic of Linear Electric Machine |
| DOI |
https://doi.org/10.5370/KIEE.2024.73.3.516 |
| Keywords |
Axial Strength; Bending Strength; Compressive Strength; Failure Limit; Kinetics; Safety Factor; Tensile Strength; Torsion Strength |
| Abstract |
Electrical machinery with rotating or linear mass requires a support system that can resist dynamic forces and the resulting vibrations. The excess of such vibrations may be detrimental to the machinery and its support system. Especially, it becomes more and more important for dynamic equipment foundations due to various design criteria and methods and procedures of analysis, design and construction. For stable operation of the equipment foundations, kinetics is an important tool in understanding the motion of objects whether translational, oscillatory, or circular. In case of translating or linear oscillating masses, the behavior of variables such as speed and acceleration (deceleration) must be described by the equations of motion. Of importance is the mechanical robustness, because a linear electric machine has to withstand high accelerations resulting from the oscillating masses. This paper deals with the design of shaft and bolt is achieved by fatigue analysis based on the kinetic equation considering mechanical load.
The results of the study will give elaborate information about stable and effective movement data of linear electric machine. |