3 research outputs found

    PROGETTAZIONE DI CABLAGGI PER IMPIEGO AEROSPAZIALE

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    Questo lavoro è stato sviluppato nell'ambito di un periodo di tirocinio svolto in ORTEC-IT. L'azienda, ed in particolare la sede di Firenze, è specializzata nella progettazione di cablaggi in campo aerospaziale, automobilistico e ferroviario. Lo scopo della presente tesi è quello di descrivere la progettazione dei cavi elettrici e dei bandoli per impiego aerospaziale basandosi sull'esperienza da me acquisita all'interno dell'azienda. Il lavoro si è svolto inizialmente studiando i progetti e le normative che riguardano la designazione dei cablaggi e successivamente progettando direttamente alcuni bandoli del lanciatore VEGA e del satellite COSMO-SkyMed Second Generation (CSG). Gli strumenti usati principalmente sono stati il software di CAD elettrico SEE Electrical Harness sviluppato da IGE+XAO e il software di CAD 3D CATIA con moduli di designazione elettrica, presenti in una particolare configurazione licenziata da Dassault Systemes

    Protected silver coating for Ariel telescope mirrors: study of ageing effects

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    The Atmospheric Remote-sensing Infrared Exoplanet Large-survey (Ariel), selected as ESA’s fourth mediumclass mission in the Cosmic Vision program, is set to launch in 2029. The objective of the study is to conduct spectroscopic observations of approximately one thousand exoplanetary atmospheres for better understanding the planetary system formation and evolution and identifying a clear link between the characteristics of an exoplanet and those of its parent star. The realization of the Ariel’s telescope is a challenging task that is still ongoing. It is an off-axis Cassegrain telescope (M1 parabola, M2 hyperbola) followed by a re-collimating off-axis parabola (M3) and a plane fold mirror (M4). It is made of Al 6061 and designed to operate at visible and infrared wavelengths. The mirrors of the telescope will be coated with protected silver, qualified to operate at cryogenic temperatures. The qualification of the coating was performed according to the ECSS Q-ST-70-17C standard, on a set of samples that have been stored in ISO 6 cleanroom conditions and are subjected to periodic inspection and reflectance measurements to detect any potential performance degradation. The samples consist of a set of Aluminum alloy Al 6061-T651 disks coated with protected silver. This paper presents the results of the morphological characterization of the samples based on Atomic Force Microscopy (AFM) and the reflectivity measurement in the infrared by Fourier Transform Infrared (FTIR) spectroscopy

    Planning the integration and test of a space telescope with a 1 m aluminum primary mirror: the Ariel mission case

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    Ariel (Atmospheric Remote-Sensing Infrared Exoplanet Large Survey) is ESA’s M4 mission of the “Cosmic Vision” program, with launch scheduled for 2029. Its purpose is to conduct a survey of the atmospheres of known exoplanets through transit spectroscopy. Ariel is based on a 1 m class telescope optimized for spectroscopy in the waveband between 1.95 and 7.8 µm, operating at cryogenic temperatures in the range 40–50 K. The Ariel Telescope is an off-axis, unobscured Cassegrain design, with a parabolic recollimating tertiary mirror and a flat folding mirror directing the output beam parallel to the optical bench. The secondary mirror is mounted on a roto-translating stage for adjustments during the mission. The mirrors and supporting structures are all realized in an aerospace-grade aluminum alloy T6061 for ease of manufacturing and thermalization. The low stiffness of the material, however, poses unique challenges to integration and alignment. Care must be therefore employed when designing and planning the assembly and alignment procedures, necessarily performed at room temperature and with gravity, and the optical performance tests at cryogenic temperatures. This paper provides a high-level description of the Assembly, Integration and Test (AIT) plan for the Ariel telescope and gives an overview of the analyses and reasoning that led to the specific choices and solutions adopted
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