Aerogels in Aerospace: An Overview

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Abstract

Aerogels are highly porous structures prepared via a sol-gel process and supercritical drying technology. Among the classes of aerogels, silica aerogel exhibits the most remarkable physical properties, possessing lower density, thermal conductivity, refractive index, and dielectric constant than any solids. Its acoustical property is such that it can absorb the sound waves reducing speed to 100 m/s compared to 332 m/s for air. However, when it comes to commercialization, the result is not as expected. It seems that mass production, particularly in the aerospace industry, has dawdled behind. This paper highlights the evolution of aerogels in general and discusses the functions and significances of silica aerogel in previous astronautical applications. Future outer-space applications have been proposed as per the current research trend. Finally, the implementation of conventional silica aerogel in aeronautics is argued with an alternative known as Maerogel.

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Mineralogy and Petrology of Comet 81P/Wild 2 Nucleus Samples

M Zolensky, T. Zega, H Yano … (2006)

The bulk of the comet 81P/Wild 2 (hereafter Wild 2) samples returned to Earth by the Stardust spacecraft appear to be weakly constructed mixtures of nanometer-scale grains, with occasional much larger (over 1 micrometer) ferromagnesian silicates, Fe-Ni sulfides, Fe-Ni metal, and accessory phases. The very wide range of olivine and low-Ca pyroxene compositions in comet Wild 2 requires a wide range of formation conditions, probably reflecting very different formation locations in the protoplanetary disk. The restricted compositional ranges of Fe-Ni sulfides, the wide range for silicates, and the absence of hydrous phases indicate that comet Wild 2 experienced little or no aqueous alteration. Less abundant Wild 2 materials include a refractory particle, whose presence appears to require radial transport in the early protoplanetary disk.

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Author and article information

Journal

Title: Advances in Materials Science and Engineering

Abbreviated Title: Advances in Materials Science and Engineering

Publisher: Hindawi Limited

ISSN (Print): 1687-8434

ISSN (Electronic): 1687-8442

Publication date Created: 2013

Publication date (Print): 2013

Volume: 2013

Issue:

Pages: 1-18

Article

DOI: 10.1155/2013/406065

SO-VID: 027fe5ec-22af-42af-b929-6018ffba07f9

License:

http://creativecommons.org/licenses/by/3.0/

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