Radiation Effects on Stepper Motors and Lubricants: A Review

TL;DR

This review analyzes how radiation impacts stepper motors and lubricants, focusing on damage mechanisms, material thresholds, and potential radiation-hard alternatives for use in nuclear and high-radiation environments.

Contribution

It provides a comprehensive overview of radiation effects on stepper motor components, highlighting damage mechanisms and summarizing existing research on radiation-resistant materials.

Findings

Radiation causes mechanical degradation in stepper motors.

Material thresholds determine radiation resistance levels.

Research identifies potential radiation-hard materials for motor components.

Abstract

The use of electrical motors and other remote systems are important tools in radiation environments. Certain harsh radiation environments, such as particle accelerators, require the use of remote systems during operation. Stepper motors are one motor, in particular, that have acquired interest in the nuclear field for use in these remote systems. The stepper motor's precision in rotation and holding is a highly desired quality. In this review, the stepper motor is examined for use in radiation environments. The different mechanical parts are introduced and examined from the broader literature of previous work. We attempt to explain the different radiation destructive mechanisms involved with each part of the stepper motor and how the mechanics are affected. Current and past research is explored, identifying either radiation hard alternatives or thresholds of the materials involved, and a general review of stepper motor radiation effects as available in literature.