改性耐温有机硅涂层的制备与防腐性能研究

马勇

doi:10.16577/j.issn.1001-1560.2023.0261

材料保护 >

2023 , Vol. 56 >Issue 11: 36 - 44

DOI: https://doi.org/10.16577/j.issn.1001-1560.2023.0261

试验研究

改性耐温有机硅涂层的制备与防腐性能研究

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长城钻探工程有限公司工程技术研究院

马勇(1983-),工程师, 主要从事钻完井方向研究,电话:13700079420,E-mail:my.gwdc@cnpc.com.cn

收稿日期: 2023-05-21

修回日期: 2023-06-20

录用日期: 2023-07-05

网络出版日期: 2023-12-25

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Preparation and Corrosion Resistance of Modified Temperature Resistant Silicone Coatings

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(CNPC Greatwall Drilling Co., Ltd., Beijing 124000, China)

Received date: 2023-05-21

Revised date: 2023-06-20

Accepted date: 2023-07-05

Online published: 2023-12-25

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摘要

为了提升甲基苯基硅涂层的防腐性能,通过引入其他有机树脂增大交联度和采用纳米粒子填补涂层内部缺陷的方法来提高耐蚀性。通过氨基硅烷APTES与环氧树脂E51或酚醛环氧树脂F51的预聚反应制备硅烷化环氧树脂,之后将其与甲基苯基硅树脂物理共聚以实现对有机硅树脂的改性,并在其中加入纳米镁铝水滑石或纳米TiO2/SiO2作为填料。结果表明:使用硅烷化环氧树脂、硅烷化酚醛环氧树脂对甲基苯基硅树脂进行改性使其耐热性分别下降11.4%,5.6%,附着力分别提升16.3%,25.3%,耐蚀性均提升40%以上。添加1.6%纳米TiO2/SiO2填料使有机硅树脂涂层耐热性提升2.8%,耐蚀性提升30%左右。15% 纳米镁铝水滑石填料的加入使涂层耐热性下降16.6%,耐蚀性提升20%左右。

关键词： 甲基苯基硅树脂; 硅烷化环氧树脂; 改性有机硅涂料; 耐高温防腐; 纳米填料

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马勇 . 改性耐温有机硅涂层的制备与防腐性能研究[J]. 材料保护, 2023 , 56(11) : 36 -44 . DOI: 10.16577/j.issn.1001-1560.2023.0261

Abstract

For improving the anti-corrosion performance of methyl phenyl silicone resin coatings, the methods of introducing other organic resins to increase the degree of cross-linking and using nanoparticles to fill internal defects in the coating were employed to improve corrosion resistance. Specially, the silanized epoxy resin was prepared by pre-polymerization of APTES amino silane with epoxy resin E51 or phenolic epoxy resin F51, and then physically mixed with methyl phenyl silicone resin to realize the modification of the organic silicon resin, in which nanometer Mg-Al LDHs or nanometer TiO2/SiO2 were added as fillers. Results showed that the use of silanized epoxy resin and silanized phenolic epoxy resin to modify methyl phenyl silicone resin reduced the heat resistance by 11.4% and 5.6%, respectively. The adhesion increased by 16.3% and 25.3%, respectively, and their corrosion resistance was improved by more than 40%. Besides, the addition of 1.6% nanometer TiO2/SiO2 filler enhanced the heat resistance of the silicone resin coating by 2.8% and the corrosion resistance by about 30%. The addition of 15% Mg-Al LDHs filler reduced the heat resistance of the silicone coating by 16.6% and increased the corrosion resistance by about 20%.

Key words： methyl phenyl silicone resin; silanized epoxy resin; modified silicone coating; high temperature resistance and anti-corrosion; nanoparticle filler

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