Publicação: Development of silicon carbide substrates for aerospace applications
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Payload and high-tech are important characteristics when the goals are aerospace applications. The development of the technologies associated to these applications has interests that transcend national boundaries and are of strategic importance to the nations. Ultra lightweight mirrors, supports and structures for optical systems are important part of this subject. This paper reports the development of SiC substrates, obtained by pressing, to be applied on embedded precision reflective optics. Different SiC granulometries, having YAG as sintering additive, were processed by: ball milling, drying and deagglomeration, sift, uniaxial and isostatic pressing, and, finally, argon atmosphere sintering at 1900°C. Different porosities were obtained according to the amount of organic material added. Into one side of the samples pellets of organic material were introduced to generate voids to reduce the weight of samples as a whole. The substrates were grinding and polished, looking for a SiC surface having low porosity, as porosity is directly related to light scattering that should be avoided on optical surfaces. Laser surface treatments were applied (using or not SiC barbotine) as a method to improve the surface quality. The samples were characterized by optical and laser confocal microscopy, roughness measurements and mechanical tests. The results are very promissory for future applications. © 2012 Materials Research Society.
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Argon atmospheres, Barbotine, Deagglomeration, Future applications, Granulometries, Isostatic pressing, Laser confocal microscopy, Laser surface treatment, Low porosity, Mechanical tests, Optical surfaces, Organic materials, Reflective optics, SiC substrates, Silicon carbide substrates, Sintering additives, Ultra lightweight mirror, YAG, Aerospace applications, Ball milling, Confocal microscopy, Porosity, Sintering, Silicon carbide
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Materials Research Society Symposium Proceedings, v. 1373, p. 31-36.
