Synthesis and characterization of non-isocyanate polyurethane from rubber seed oil, oleic oligomer, and oleic acid as a raw material / Raden Siti Amirah Hambali

Polyurethane is a versatile material that is utilized for various applications. Conventional polyurethane is synthesized from polyols and polyisocyanates. However, the toxicity of isocyanate could cause health issues such as skin irritation and lung problems. Its toxicity is exposed during manufactu...

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Main Author: Hambali, Raden Siti Amirah
Format: Thesis
Language:English
Published: 2022
Subjects:
Online Access:https://ir.uitm.edu.my/id/eprint/76510/1/76510.pdf
https://ir.uitm.edu.my/id/eprint/76510/
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id my.uitm.ir.76510
record_format eprints
institution Universiti Teknologi Mara
building Tun Abdul Razak Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Mara
content_source UiTM Institutional Repository
url_provider http://ir.uitm.edu.my/
language English
topic Extraction (Chemistry)
Oils, fats, and waxes
spellingShingle Extraction (Chemistry)
Oils, fats, and waxes
Hambali, Raden Siti Amirah
Synthesis and characterization of non-isocyanate polyurethane from rubber seed oil, oleic oligomer, and oleic acid as a raw material / Raden Siti Amirah Hambali
description Polyurethane is a versatile material that is utilized for various applications. Conventional polyurethane is synthesized from polyols and polyisocyanates. However, the toxicity of isocyanate could cause health issues such as skin irritation and lung problems. Its toxicity is exposed during manufacturing and in the end-product. Therefore, the development of non-isocyanate polyurethane is an alternative that is environmentally safe to produce polyurethane. The non-isocyanate polyurethane is developed through chemical modification processes which involve epoxidation, carbonation and curing. During the epoxidation process, the double bond functionality of raw material was converted into an epoxide ring using peroxoformic acid generated in-situ. Carbon dioxide gas was introduced to the epoxide ring to form a cyclic carbonate ring. The cyclic carbonate ring was then reacted with ethylenediamine to yield a non-isocyanate polyurethane. The non-isocyanate polyurethane was synthesized from rubber seed oil, oleic oligomer, and oleic acid as raw material of different functionality numbers of F≥3, F=2, and F=1, respectively. Rubber seed oil was extracted using hexane via solvent extraction method in 7 hours. The extracted rubber seed oil’s properties of viscosity, iodine value, acid value, and FFA were found at 35 mPa/s, 192.89 gI2/100g, 25.5 mgKOH/100g, and 12.81 %, respectively. The oleic oligomer was synthesized from oleic acid and ethylene glycol. The optimum ratio of ethylene glycol to oleic acid for the oligomer conversion was found at 1.5:1. The oleic oligomer had iodine value, acid value, and FFA of 94 gI2/100g, 7.21 mgKOH/100g, and 3.62 %, respectively. The reaction temperature and the ratio of hydrogen peroxide and formic acid to the double bond of oil were the parameters being investigated in epoxidation process. The optimum epoxidation condition to yield maximum epoxide conversion was found at 50 ℃ and the reactant ratio of 1:1:2 (oil : formic acid : hydrogen peroxide). The epoxide conversion of 73 % after 4.5 hours for epoxidized rubber seed oil, 63 % after 3 hoursfor epoxidized oleic oligomer, and 91 % after 3 hours for epoxidized oleic acid were achieved under the optimum parameter settings. The epoxidized oil then underwent a low-pressure carbonation process. The cyclic carbonate conversion was increased rapidly in the initial stage of the cyclic carbonated rubber seed oil and a gradual conversion for the cyclic carbonated oleic oligomer. The cyclic carbonated oleic acid conversion from epoxidized oleic acid was unsuccessful due to self-attack during the carbonation process where the carboxylic acid group of epoxidized oleic acid will attack its opened epoxide ring. The non-isocyanate polyurethane film was formed by curing the cyclic carbonated oil with ethylenediamine. The optimum percentage of ethylenediamine was found at 20 %. Pencil hardness test on the film resulted in hardness ranging from 2B to 4H for non-isocyanate polyurethane derived from rubber seed oil and 5B to 2H for oleic oligomer. The tensile strength and elongation percentage for non-isocyanate polyurethane derived from rubber seed oil were found at a range of 20 kg/cm2–35 kg/cm2 and 20 %-85 %, respectively. While 5 kg/cm2–25 kg/cm2 tensile and 28 %-75 % elongation for oleic oligomer. Thus, the non isocyanate polyurethane derived from rubber seed oil had higher hardness, tensile strength, and elongation percentage compared to oleic oligomer as raw material. The degradation temperature of the non-isocyanate polyurethane was found at 224 °C.
format Thesis
author Hambali, Raden Siti Amirah
author_facet Hambali, Raden Siti Amirah
author_sort Hambali, Raden Siti Amirah
title Synthesis and characterization of non-isocyanate polyurethane from rubber seed oil, oleic oligomer, and oleic acid as a raw material / Raden Siti Amirah Hambali
title_short Synthesis and characterization of non-isocyanate polyurethane from rubber seed oil, oleic oligomer, and oleic acid as a raw material / Raden Siti Amirah Hambali
title_full Synthesis and characterization of non-isocyanate polyurethane from rubber seed oil, oleic oligomer, and oleic acid as a raw material / Raden Siti Amirah Hambali
title_fullStr Synthesis and characterization of non-isocyanate polyurethane from rubber seed oil, oleic oligomer, and oleic acid as a raw material / Raden Siti Amirah Hambali
title_full_unstemmed Synthesis and characterization of non-isocyanate polyurethane from rubber seed oil, oleic oligomer, and oleic acid as a raw material / Raden Siti Amirah Hambali
title_sort synthesis and characterization of non-isocyanate polyurethane from rubber seed oil, oleic oligomer, and oleic acid as a raw material / raden siti amirah hambali
publishDate 2022
url https://ir.uitm.edu.my/id/eprint/76510/1/76510.pdf
https://ir.uitm.edu.my/id/eprint/76510/
_version_ 1768011583377637376
spelling my.uitm.ir.765102023-05-29T02:57:09Z https://ir.uitm.edu.my/id/eprint/76510/ Synthesis and characterization of non-isocyanate polyurethane from rubber seed oil, oleic oligomer, and oleic acid as a raw material / Raden Siti Amirah Hambali Hambali, Raden Siti Amirah Extraction (Chemistry) Oils, fats, and waxes Polyurethane is a versatile material that is utilized for various applications. Conventional polyurethane is synthesized from polyols and polyisocyanates. However, the toxicity of isocyanate could cause health issues such as skin irritation and lung problems. Its toxicity is exposed during manufacturing and in the end-product. Therefore, the development of non-isocyanate polyurethane is an alternative that is environmentally safe to produce polyurethane. The non-isocyanate polyurethane is developed through chemical modification processes which involve epoxidation, carbonation and curing. During the epoxidation process, the double bond functionality of raw material was converted into an epoxide ring using peroxoformic acid generated in-situ. Carbon dioxide gas was introduced to the epoxide ring to form a cyclic carbonate ring. The cyclic carbonate ring was then reacted with ethylenediamine to yield a non-isocyanate polyurethane. The non-isocyanate polyurethane was synthesized from rubber seed oil, oleic oligomer, and oleic acid as raw material of different functionality numbers of F≥3, F=2, and F=1, respectively. Rubber seed oil was extracted using hexane via solvent extraction method in 7 hours. The extracted rubber seed oil’s properties of viscosity, iodine value, acid value, and FFA were found at 35 mPa/s, 192.89 gI2/100g, 25.5 mgKOH/100g, and 12.81 %, respectively. The oleic oligomer was synthesized from oleic acid and ethylene glycol. The optimum ratio of ethylene glycol to oleic acid for the oligomer conversion was found at 1.5:1. The oleic oligomer had iodine value, acid value, and FFA of 94 gI2/100g, 7.21 mgKOH/100g, and 3.62 %, respectively. The reaction temperature and the ratio of hydrogen peroxide and formic acid to the double bond of oil were the parameters being investigated in epoxidation process. The optimum epoxidation condition to yield maximum epoxide conversion was found at 50 ℃ and the reactant ratio of 1:1:2 (oil : formic acid : hydrogen peroxide). The epoxide conversion of 73 % after 4.5 hours for epoxidized rubber seed oil, 63 % after 3 hoursfor epoxidized oleic oligomer, and 91 % after 3 hours for epoxidized oleic acid were achieved under the optimum parameter settings. The epoxidized oil then underwent a low-pressure carbonation process. The cyclic carbonate conversion was increased rapidly in the initial stage of the cyclic carbonated rubber seed oil and a gradual conversion for the cyclic carbonated oleic oligomer. The cyclic carbonated oleic acid conversion from epoxidized oleic acid was unsuccessful due to self-attack during the carbonation process where the carboxylic acid group of epoxidized oleic acid will attack its opened epoxide ring. The non-isocyanate polyurethane film was formed by curing the cyclic carbonated oil with ethylenediamine. The optimum percentage of ethylenediamine was found at 20 %. Pencil hardness test on the film resulted in hardness ranging from 2B to 4H for non-isocyanate polyurethane derived from rubber seed oil and 5B to 2H for oleic oligomer. The tensile strength and elongation percentage for non-isocyanate polyurethane derived from rubber seed oil were found at a range of 20 kg/cm2–35 kg/cm2 and 20 %-85 %, respectively. While 5 kg/cm2–25 kg/cm2 tensile and 28 %-75 % elongation for oleic oligomer. Thus, the non isocyanate polyurethane derived from rubber seed oil had higher hardness, tensile strength, and elongation percentage compared to oleic oligomer as raw material. The degradation temperature of the non-isocyanate polyurethane was found at 224 °C. 2022 Thesis NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/76510/1/76510.pdf Synthesis and characterization of non-isocyanate polyurethane from rubber seed oil, oleic oligomer, and oleic acid as a raw material / Raden Siti Amirah Hambali. (2022) PhD thesis, thesis, Universiti Teknologi MARA (UiTM). <http://terminalib.uitm.edu.my/76510.pdf>
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