Study on the Degradation of Optical Silicone Exposed to Harsh Environments

Author:

Yazdan Mehr Maryam,van Driel Willem,De Buyl Francois,Zhang Kouchi

Abstract

Degradation mechanisms of silicone plates under harsh environment conditions are studied in this investigation. Environmental degradation of silicone free form, used as secondary optics in Light Emitting Diode LED lighting lamps and luminaires or any other applications requiring high quality optics being used, has negative implications for the optical performance. Degradation of silicone plates in harsh environment conditions was studied in salt bath and swimming water environments, using different light radiation and temperatures. Samples were exposed to harsh environment conditions for up to 4 months. Optical and chemical characteristics of exposed plates were studied using an Fourier transform infrared- attenuated total reflection FTIR-ATR spectrometer, an integrated sphere, and a Lambda 950 Ultraviolet-Visible UV-VIS spectrophotometer. Results show that 100 °C salt bath exposure had the most severe degrading effect on the optical characteristic of silicone plates. Increasing exposure time in the salt bath at that high temperature is associated with a significant deterioration of both optical (i.e., light transmission and relative radiant power value) and mechanical properties of silicone samples. On the contrary, silicone plates showed a great degree of stability against light exposure (UV at 360 nm and blue light at 450 nm).

Publisher

MDPI AG

Subject

General Materials Science

Reference31 articles.

1. Reliability challenges in the nanoelectronics era;Zhang;J. Microelectron. Reliab.,2006

2. Solid State Lighting Reliability: Components to Systems;Van Driel,2012

3. Photodegradation of bisphenol A polycarbonate under blue light radiation and its effect on optical properties

4. Dow Corning Moldable Silicone Leading Innovation in LED Light Fixtures;De Buyl;J. Soc. Silicone Chem. Japan,2014

5. How Silicones are Evolving to Meet the Growing Needs of LED Lighting Industry;De Buyl;LED Prof.,2013

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