Abstract

This work deals with the feasibility and reliability about the use of shape memory alloys (SMAs) as mechanical actuators for solar sail self-deployment instead of heavy and bulky mechanical booms. Solar sails exploit radiation pressure a as propulsion system for the exploration of the solar system. Sunlight is used to propel space vehicles by reflecting solar photons from a large and light-weight material, so that no propellant is required for primary propulsion. In this work, different small-scale solar sail prototypes (SSP) were studied, manufactured, and tested for bending and in three different environmental conditions to simulate as much as possible the real operating conditions where the solar sails work. Kapton is the most suitable material for sail production and, in the space missions till now, activated booms as deployment systems have always been used. In the present work for the activation of the SMA elements some visible lamps have been employed to simulate the solar radiation and time-temperature diagrams have been acquired for different sail geometries and environmental conditions. Heat transfer mechanisms have been discussed and the minimum distance from the sun allowing the full self-deployment of the sail have also been calculated.

Highlights

  • Solar sails exploit the light of the sun as a propulsion system [1]

  • Finish (O.T.F.), red vertical and horizontal lines have been reported in correspondence of start and end of opening of the sail self-activated by the shape memory wires

  • This allowed reaching the opening of the sail in less time than the other two cases because the heat could be transferred in different ways

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Summary

Introduction

Solar sails exploit the light of the sun as a propulsion system [1]. This propulsion system does not need any chemical propellant for imparting motion in the space. Thanks to the interaction of a great number of photon in the sunshine light with the solar sail, a small radiation pressure is produced on the sail itself [4,5]. Due to the small pressure level, in order to exploit this propulsion system, a great surface of the sail is required. Engines based on ion propulsion for small satellites are able to work according to the principle that a small but constant pressure applied on a wide surface of the sail can produce a satisfying acceleration to the whole structure [7]

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