Behaviour and Mean Life Prediction of Solar Mirrors from Parabolic Trough Collectors under Accelerated Degradation/Reliability Testing

The scope of this paper is focuses on the study of the behaviour and of the mean life of materials (solar mirrors from parabolic - trough collectors) from the field of renewable energies, using accelerated degradation/reliability testing. This paper is focused on influence of environmental factors (...

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Veröffentlicht in:	Applied Mechanics and Materials 2014-10, Vol.656 (Monitoring, Controlling and Architecture of Cyber Physical Systems), p.442-449
Hauptverfasser:	Caputo, Giampaolo, Chicoș, Lucia Antoneta, Zaharia, Sebastian Marian, Lancea, Camil
Format:	Artikel
Sprache:	eng
Schlagworte:	Accumulators Behavior Collectors Degradation Humidity Reliability Reliability aspects Sprays
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container_issue	Monitoring, Controlling and Architecture of Cyber Physical Systems
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container_title	Applied Mechanics and Materials
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creator	Caputo, Giampaolo Chicoș, Lucia Antoneta Zaharia, Sebastian Marian Lancea, Camil
description	The scope of this paper is focuses on the study of the behaviour and of the mean life of materials (solar mirrors from parabolic - trough collectors) from the field of renewable energies, using accelerated degradation/reliability testing. This paper is focused on influence of environmental factors (temperature, humidity, UV and salt spray) at mean life of solar mirrors from parabolic - trough collectors under accelerated testing conditions. In today’s highly competitive environment, companies are pressured to shorten their development cycles, reduce development costs and produce highly reliable products. Accelerated reliability/durability tests are a very powerful tool in achieving these goals, providing the means to observe failures more rapidly under higher-stress operating conditions while accurately predicting reliability under normal operating conditions.
doi_str_mv	10.4028/www.scientific.net/AMM.656.442
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subjects	Accumulators Behavior Collectors Degradation Humidity Reliability Reliability aspects Sprays
title	Behaviour and Mean Life Prediction of Solar Mirrors from Parabolic Trough Collectors under Accelerated Degradation/Reliability Testing
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