Characterization in Dynamic Load Environment of COTS Synthetic Sapphire Bearings for Application in Magnetic Suspension in Space

Giovanni Ottavio Delle Monache,Girolamo Costanza,Claudia Cavalieri,Maria Elisa Tata

doi:10.3390/app11199027

Giovanni Ottavio Delle Monache, Girolamo Costanza + Show 2 more

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https://doi.org/10.3390/app11199027

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Journal: Applied Sciences	Publication Date: Sep 28, 2021
Citations: 1	License type: CC BY 4.0

Affiliation: University of Rome Tor Vergata

Abstract

The present research investigates the application of a cardan suspension making use of permanent magnet (PM) bearings employed to obtain high reliable/low-cost solutions for the permanent alignment of directional payloads such as laser reflectors for the Next Generation Lunar Retroreflector (NGLR) experiment or antennas to be deployed on the moon’s surface. According to Earnshaw’s Theorem, it is not possible to fully stabilize an object using only a stationary magnetic field. It is also necessary to provide axial control of the shaft since the PM bearings support the radial load but, they produce an unstable axial force when losing alignment between the stator and rotor magnets stack. In this work, the use of commercial off-the-shelf (COTS) sapphire as axial bearings in the cardan suspension has been investigated by testing their behavior in response to some of the dynamic loads experienced during the qualification tests for space missions. The work is innovative in the sense that COTS sapphire assembly has never been investigated for space mission qualification. As Artemis mission loads have not been yet provided for NGLR, test loads for this study are those used for the proto-qualification of the INFN INRRI payload for the ESA ExoMars EDM mission. Tests showed that, along the x and y directions, no damages were produced on the sapphire, while, unfortunately, on the z direction both sapphires were badly damaged at nominal loads.

Highlights

Accepted: 24 September 2021NASA has selected 12 new science and technology payloads, useful for the study of theMoon and to explore more of its surface as part of the Agency’s Artemis lunar program [1,2].These investigations and demonstrations will help the Agency to send astronauts to theMoon by 2024 as a way to prepare to send humans to Mars for the first time
The main goal of this work is to report about the preliminary tests of commercial off-the-shelf (COTS) jewel bearings (JBs), available by Swiss Jewel Company, engaged with different material spindles
COTS synthetic sapphire axial bearings have been subjected to dynamic tests

Summary

Introduction

Accepted: 24 September 2021NASA has selected 12 new science and technology payloads, useful for the study of theMoon and to explore more of its surface as part of the Agency’s Artemis lunar program [1,2].These investigations and demonstrations will help the Agency to send astronauts to theMoon by 2024 as a way to prepare to send humans to Mars for the first time. NASA has selected 12 new science and technology payloads, useful for the study of the. Moon and to explore more of its surface as part of the Agency’s Artemis lunar program [1,2]. These investigations and demonstrations will help the Agency to send astronauts to the. Seven of the new selections are focused on answering questions in planetary science or heliophysics while five demonstrate new technologies. One of these 12 payloads is a new class of Lunar Laser Ranging (LLR) experiment recently investigated by international

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