Design Framework and Manufacturing of an Active Magnetic Bearing Spindle for Micro-Milling Applications

TL;DR

This paper presents a systematic design and manufacturing framework for an active magnetic bearing spindle tailored for micro-milling, addressing the limitations of traditional bearings at high speeds and providing a comprehensive approach beyond isolated prototypes.

Contribution

It introduces a multidisciplinary, iterative design framework for creating micro-milling AMB spindles, emphasizing practical manufacturing considerations and filling gaps in existing fragmented knowledge.

Findings

Successful realization of a micro-milling AMB spindle

Demonstrated high-speed, non-contact operation

Provided a comprehensive design methodology

Abstract

Micro-milling spindles require high rotational speeds where conventional rolling element bearings face limitations such as friction and thermal expansion. Active magnetic bearings (AMBs) address these challenges by providing non-contact and lubrication-free operation at ultra-high speeds with the ability to actively regulate spindle dynamics. The existing literature on AMB spindles has mainly reported specific prototype realizations or control system implementations for specific spindle dynamics. Consequently, design knowledge remains fragmented across isolated successful studies. This paper addresses this gap by presenting a systematic and iterative framework to design and manufacture a micro-milling AMB spindle. The process involves a multidisciplinary design flow with a focus on critical practical aspects of manufacturing. The realized spindle is reported as a case study.