Mars 2020 Mobility Actuator Thermal Testing and Model Correlation

Date

2017-07-16

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Volume Title

Publisher

47th International Conference on Environmental Systems

Abstract

This paper describes the thermal testing and model correlation of a mobility actuator planned for use on the Mars 2020 Rover. The mobility actuator is identical to those which have been successfully flown and operated on the Mars Science Laboratory (MSL) Curiosity rover since its successful landing on Mars in 2012. The actuator consists of a motor, brake, and encoder paired with a four stage planetary gear box. In this thermal test, the actuator was instrumented with a number of thermocouples on both the interior and exterior of the gearbox. Heaters and a cold plate were used to generate thermal gradients across the actuator in vacuum, low pressure GN2, and low pressure CO2 environments in an effort to correlate a thermal model and develop a better understanding of how heat flows through the mechanism. This testing resulted in the successful model correlation of a simplified thermal model, and yielded important insights regarding the conductance of ball bearings and gear-to-gear contact. Ball bearing thermal conductance in a low pressure environment can be estimated by using correlations for vacuum thermal conductance along with a multiplier to account for increased gas conduction, and gear-to-gear conductance can be estimated by accounting for gas and grease conduction between two gears.

Description

Matthew Redmond, NASA Jet Propulsion Laboratory (JPL), USA
Jason Kempenaar, NASA Jet Propulsion Lab, California Institute of Technology, USA
Keith Novak, NASA Jet Propulstion Lab, California Institute of Technology, USA
ICES203: Thermal Testing
The 47th International Conference on Environmental Systems was held in South Carolina, USA on 16 July 2017 through 20 July 2017

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Keywords

thermal testing, actuator, planetary gearbox, bearing, motor

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