Preparation and Properties of Plant-Oil-Based Epoxy Acrylate-Like Resins for UV-Curable Coatings

Preparation and Properties of Plant-Oil-Based Epoxy Acrylate-Like Resins for UV-Curable Coatings

Novel oil-based epoxy acrylate (EA)-like prepolymers were synthesized via the ring-opening reaction of epoxidized plant oils with a new unsaturated carboxyl acid precursor (MAAMA) synthesized by reacting maleic anhydride (MA) with methallyl alcohol (MAA). Since the employed epoxidized oils including...

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Main Authors: Jijun Tang, Jinshuai Zhang, Jianyu Lu, Jia Huang, Fei Zhang, Yun Hu, Chengguo Liu, Rongrong An, Hongcheng Miao, Yuanyuan Chen, Tian Huang, Yonghong Zhou
Format: Article
Language:English
Published: MDPI AG 2020-09-01
Series:Polymers
Subjects:
soybean oil
rubber seed oil
wilsoniana seed oil
epoxy acrylate
UV-curable coatings
Online Access:https://www.mdpi.com/2073-4360/12/9/2165
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spelling doaj-a77ab1b4e0814a30b49be113c11136e32020-11-25T03:40:10ZengMDPI AGPolymers2073-43602020-09-01122165216510.3390/polym12092165Preparation and Properties of Plant-Oil-Based Epoxy Acrylate-Like Resins for UV-Curable CoatingsJijun Tang0Jinshuai Zhang1Jianyu Lu2Jia Huang3Fei Zhang4Yun Hu5Chengguo Liu6Rongrong An7Hongcheng Miao8Yuanyuan Chen9Tian Huang10Yonghong Zhou11College of Materials Science and Engineering, Jiangsu University of Science and Technology, Zhenjiang 212100, ChinaInstitute of Chemical Industry of Forest Products, Chinese Academy of Forestry, Nanjing 210042, ChinaCollege of Materials Science and Engineering, Jiangsu University of Science and Technology, Zhenjiang 212100, ChinaInstitute of Chemical Industry of Forest Products, Chinese Academy of Forestry, Nanjing 210042, ChinaInstitute of Chemical Industry of Forest Products, Chinese Academy of Forestry, Nanjing 210042, ChinaInstitute of Chemical Industry of Forest Products, Chinese Academy of Forestry, Nanjing 210042, ChinaInstitute of Chemical Industry of Forest Products, Chinese Academy of Forestry, Nanjing 210042, ChinaCollege of Geographic and Biologic Information, Nanjing University of Posts and Telecommunications, Nanjing 210023, ChinaInstitute of Chemical Industry of Forest Products, Chinese Academy of Forestry, Nanjing 210042, ChinaInstitute of Chemical Industry of Forest Products, Chinese Academy of Forestry, Nanjing 210042, ChinaInstitute of Chemical Industry of Forest Products, Chinese Academy of Forestry, Nanjing 210042, ChinaInstitute of Chemical Industry of Forest Products, Chinese Academy of Forestry, Nanjing 210042, ChinaNovel oil-based epoxy acrylate (EA)-like prepolymers were synthesized via the ring-opening reaction of epoxidized plant oils with a new unsaturated carboxyl acid precursor (MAAMA) synthesized by reacting maleic anhydride (MA) with methallyl alcohol (MAA). Since the employed epoxidized oils including epoxidized soybean oil (ESO), epoxidized rubber seed oil (ERSO), and epoxidized wilsoniana seed oil (EWSO) possessed epoxy values of 7.34–4.38%, the obtained epoxy acrylate (EA)-like prepolymers (MMESO, MMERSO, and MMEWSO) indicated a C=C functionality of 7.81–4.40 per triglyceride. Furthermore, effects of the C=C functionality and the addition of hydroxyethyl methacrylate (HEMA) diluent on the ultimate properties of the resulting UV-cured EA-like materials were investigated and compared with those of commercially available acrylated ESO (AESO) resins. As the C=C functionality increased, the storage modulus at 25 °C (<i>E’</i><sub>25</sub>), glass transition temperature (<i>T</i><sub>g</sub>), 5% weight–loss temperature (<i>T</i><sub>5</sub>), tensile strength and modulus (<i>σ</i> and <i>E</i>), and hardness of the coating for both the pure EA and EA/HEMA resins increased significantly as well. These properties indicated similar trends when comparing the EA materials with 30% of HEMA with those pure EA materials. Specially, although ERSO had a clearly lower epoxy value that ESO, both the UV-cured pure MMERSO and MMERSO/HEMA materials showed much better <i>E’</i><sub>25</sub>, <i>T</i><sub>g</sub>, <i>σ</i>, and <i>E</i> than their AESO counterparts, indicating that the MAAMA modification of epoxidized plant oils was much more effective than the modification of acrylic acid to achieve high-performance oil-based epoxy acrylate resins.https://www.mdpi.com/2073-4360/12/9/2165soybean oilrubber seed oilwilsoniana seed oilepoxy acrylateUV-curable coatings
collection DOAJ
language English
format Article
sources DOAJ
author Jijun Tang
Jinshuai Zhang
Jianyu Lu
Jia Huang
Fei Zhang
Yun Hu
Chengguo Liu
Rongrong An
Hongcheng Miao
Yuanyuan Chen
Tian Huang
Yonghong Zhou
spellingShingle Jijun Tang
Jinshuai Zhang
Jianyu Lu
Jia Huang
Fei Zhang
Yun Hu
Chengguo Liu
Rongrong An
Hongcheng Miao
Yuanyuan Chen
Tian Huang
Yonghong Zhou
Preparation and Properties of Plant-Oil-Based Epoxy Acrylate-Like Resins for UV-Curable Coatings
Polymers
soybean oil
rubber seed oil
wilsoniana seed oil
epoxy acrylate
UV-curable coatings
author_facet Jijun Tang
Jinshuai Zhang
Jianyu Lu
Jia Huang
Fei Zhang
Yun Hu
Chengguo Liu
Rongrong An
Hongcheng Miao
Yuanyuan Chen
Tian Huang
Yonghong Zhou
author_sort Jijun Tang
title Preparation and Properties of Plant-Oil-Based Epoxy Acrylate-Like Resins for UV-Curable Coatings
title_short Preparation and Properties of Plant-Oil-Based Epoxy Acrylate-Like Resins for UV-Curable Coatings
title_full Preparation and Properties of Plant-Oil-Based Epoxy Acrylate-Like Resins for UV-Curable Coatings
title_fullStr Preparation and Properties of Plant-Oil-Based Epoxy Acrylate-Like Resins for UV-Curable Coatings
title_full_unstemmed Preparation and Properties of Plant-Oil-Based Epoxy Acrylate-Like Resins for UV-Curable Coatings
title_sort preparation and properties of plant-oil-based epoxy acrylate-like resins for uv-curable coatings
publisher MDPI AG
series Polymers
issn 2073-4360
publishDate 2020-09-01
description Novel oil-based epoxy acrylate (EA)-like prepolymers were synthesized via the ring-opening reaction of epoxidized plant oils with a new unsaturated carboxyl acid precursor (MAAMA) synthesized by reacting maleic anhydride (MA) with methallyl alcohol (MAA). Since the employed epoxidized oils including epoxidized soybean oil (ESO), epoxidized rubber seed oil (ERSO), and epoxidized wilsoniana seed oil (EWSO) possessed epoxy values of 7.34–4.38%, the obtained epoxy acrylate (EA)-like prepolymers (MMESO, MMERSO, and MMEWSO) indicated a C=C functionality of 7.81–4.40 per triglyceride. Furthermore, effects of the C=C functionality and the addition of hydroxyethyl methacrylate (HEMA) diluent on the ultimate properties of the resulting UV-cured EA-like materials were investigated and compared with those of commercially available acrylated ESO (AESO) resins. As the C=C functionality increased, the storage modulus at 25 °C (<i>E’</i><sub>25</sub>), glass transition temperature (<i>T</i><sub>g</sub>), 5% weight–loss temperature (<i>T</i><sub>5</sub>), tensile strength and modulus (<i>σ</i> and <i>E</i>), and hardness of the coating for both the pure EA and EA/HEMA resins increased significantly as well. These properties indicated similar trends when comparing the EA materials with 30% of HEMA with those pure EA materials. Specially, although ERSO had a clearly lower epoxy value that ESO, both the UV-cured pure MMERSO and MMERSO/HEMA materials showed much better <i>E’</i><sub>25</sub>, <i>T</i><sub>g</sub>, <i>σ</i>, and <i>E</i> than their AESO counterparts, indicating that the MAAMA modification of epoxidized plant oils was much more effective than the modification of acrylic acid to achieve high-performance oil-based epoxy acrylate resins.
topic soybean oil
rubber seed oil
wilsoniana seed oil
epoxy acrylate
UV-curable coatings
url https://www.mdpi.com/2073-4360/12/9/2165
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