Feasibility of Employing Semi-Hard Magnetic Materials for Hysteresis Magnetic Clutches in Railway Systems
Paweł Pistelok, Marcin Adamiak

TL;DR
This paper explores using semi-hard magnetic materials in railway systems to improve clutch reliability and reduce maintenance.
Contribution
The novelty lies in proposing multi-component AlNiCoFe alloys for hysteresis magnetic clutches in railway point machines.
Findings
Multi-component AlNiCoFe alloys show potential for reliable hysteresis magnetic clutches.
Prototype magnetic clutch improved force transmission and system performance in railway point machines.
Material analysis confirmed suitable crystallographic and magnetic properties for the intended application.
Abstract
This paper introduces innovative approaches to the design of railway point machines, with particular emphasis on the implementation of multi-component AlNiCoFe alloys, classified as semi-hard magnetic materials. A comprehensive review of existing mechanisms for mechanical force transmission—from the electric motor to the throwing bar—was conducted. The inherent limitations of conventional dry friction clutches, commonly used in current point machine designs, are critically analyzed. Furthermore, the feasibility of employing multi-component AlNiCoFe alloys as functional materials in hysteresis magnetic clutches is examined, with a view toward enhancing the reliability and performance of railway point actuation systems. A review of diagnostic methods for railway point machines was conducted to evaluate the potential application of a novel magnetic torque limiter as a means to eliminate…
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Taxonomy
TopicsElectric Motor Design and Analysis · Magnetic Properties and Applications · Magnetic Bearings and Levitation Dynamics
