Degradation behaviour of thin film optical resin based on epoxidised soy bean oil upon UV exposure / Rahmah Mohamed and Ahmad Faiza Mohd

Epoxidised soybean oil is a derivative of soybean oil having (epoxy) functional groups,which are products from epoxidation of carbon-carbon double bonds in soybean oil. Epoxidised soybean oils (ESO) are used as plasticizers, crosslinking agents,stabilizers and are intermediates for polyol production...

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Main Authors: Mohamed, Rahmah, Mohd, Ahmad Faiza
Format: Research Reports
Language:English
Published: Research Management Institute (RMI) 2009
Subjects:
Online Access:http://ir.uitm.edu.my/id/eprint/27150/
http://ir.uitm.edu.my/id/eprint/27150/1/LP_RAHMAH%20MOHAMED%20RMI%2009_5.pdf
id uitm-27150
recordtype eprints
spelling uitm-271502020-01-14T05:29:29Z http://ir.uitm.edu.my/id/eprint/27150/ Degradation behaviour of thin film optical resin based on epoxidised soy bean oil upon UV exposure / Rahmah Mohamed and Ahmad Faiza Mohd Mohamed, Rahmah Mohd, Ahmad Faiza RV Botanic, Thomsonian, and eclectic medicine Epoxidised soybean oil is a derivative of soybean oil having (epoxy) functional groups,which are products from epoxidation of carbon-carbon double bonds in soybean oil. Epoxidised soybean oils (ESO) are used as plasticizers, crosslinking agents,stabilizers and are intermediates for polyol production used in polyurethanes and plastics resin after the oxirane ring is opened by hydroxylation or alcoholysis.In this study,modified ESO had been used for various applications for surface coatings,composite and optical products. For light stabilized coating system, unsaturated monomer and UV absorber may be incorporated to increase uv stability and prevent prior degradation in transmission and thermal stability. Thermal stability through mass loss degradation profile was evaluated and analysed using thermal gravimetric analysis (TGA). Thermal kinietic profile with TGA showed faster reaction with high scan rate and degradation kinetic parameter taken at 600C showed higher Ea values for Photoinitor A as compared to Photoinitiator B type. FTIR analysis done revealed the formation of acrylated ESO and transmission is affected under sunlight exposure. As for degradation upon pH changes when immersed in water according to ASTM D5402.Acrylated resin was most resistant in 0.0IM alkaline medium rather than in water and same molarity of acidic solution Research Management Institute (RMI) 2009-12 Research Reports NonPeerReviewed text en http://ir.uitm.edu.my/id/eprint/27150/1/LP_RAHMAH%20MOHAMED%20RMI%2009_5.pdf Mohamed, Rahmah and Mohd, Ahmad Faiza (2009) Degradation behaviour of thin film optical resin based on epoxidised soy bean oil upon UV exposure / Rahmah Mohamed and Ahmad Faiza Mohd. [Research Reports] (Unpublished)
repository_type Digital Repository
institution_category Local University
institution Universiti Teknologi MARA
building UiTM Institutional Repository
collection Online Access
language English
topic RV Botanic, Thomsonian, and eclectic medicine
spellingShingle RV Botanic, Thomsonian, and eclectic medicine
Mohamed, Rahmah
Mohd, Ahmad Faiza
Degradation behaviour of thin film optical resin based on epoxidised soy bean oil upon UV exposure / Rahmah Mohamed and Ahmad Faiza Mohd
description Epoxidised soybean oil is a derivative of soybean oil having (epoxy) functional groups,which are products from epoxidation of carbon-carbon double bonds in soybean oil. Epoxidised soybean oils (ESO) are used as plasticizers, crosslinking agents,stabilizers and are intermediates for polyol production used in polyurethanes and plastics resin after the oxirane ring is opened by hydroxylation or alcoholysis.In this study,modified ESO had been used for various applications for surface coatings,composite and optical products. For light stabilized coating system, unsaturated monomer and UV absorber may be incorporated to increase uv stability and prevent prior degradation in transmission and thermal stability. Thermal stability through mass loss degradation profile was evaluated and analysed using thermal gravimetric analysis (TGA). Thermal kinietic profile with TGA showed faster reaction with high scan rate and degradation kinetic parameter taken at 600C showed higher Ea values for Photoinitor A as compared to Photoinitiator B type. FTIR analysis done revealed the formation of acrylated ESO and transmission is affected under sunlight exposure. As for degradation upon pH changes when immersed in water according to ASTM D5402.Acrylated resin was most resistant in 0.0IM alkaline medium rather than in water and same molarity of acidic solution
format Research Reports
author Mohamed, Rahmah
Mohd, Ahmad Faiza
author_facet Mohamed, Rahmah
Mohd, Ahmad Faiza
author_sort Mohamed, Rahmah
title Degradation behaviour of thin film optical resin based on epoxidised soy bean oil upon UV exposure / Rahmah Mohamed and Ahmad Faiza Mohd
title_short Degradation behaviour of thin film optical resin based on epoxidised soy bean oil upon UV exposure / Rahmah Mohamed and Ahmad Faiza Mohd
title_full Degradation behaviour of thin film optical resin based on epoxidised soy bean oil upon UV exposure / Rahmah Mohamed and Ahmad Faiza Mohd
title_fullStr Degradation behaviour of thin film optical resin based on epoxidised soy bean oil upon UV exposure / Rahmah Mohamed and Ahmad Faiza Mohd
title_full_unstemmed Degradation behaviour of thin film optical resin based on epoxidised soy bean oil upon UV exposure / Rahmah Mohamed and Ahmad Faiza Mohd
title_sort degradation behaviour of thin film optical resin based on epoxidised soy bean oil upon uv exposure / rahmah mohamed and ahmad faiza mohd
publisher Research Management Institute (RMI)
publishDate 2009
url http://ir.uitm.edu.my/id/eprint/27150/
http://ir.uitm.edu.my/id/eprint/27150/1/LP_RAHMAH%20MOHAMED%20RMI%2009_5.pdf
first_indexed 2023-09-18T23:17:53Z
last_indexed 2023-09-18T23:17:53Z
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