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林产化学与工业 ›› 2021, Vol. 41 ›› Issue (4): 42-50.doi: 10.3969/j.issn.0253-2417.2021.04.007

• 研究报告 • 上一篇    下一篇

TiO2改性脱氢枞酸交联室温硫化硅橡胶的制备及性能表征

杨欣欣1,2(), 姜兆宇2, 刘鹤2, 黄旭娟1, 蔡照胜1,*(), 商士斌2   

  1. 1. 盐城工学院 化学化工学院, 江苏 盐城 224051
    2. 中国林业科学研究院 林产化学工业研究所, 江苏 南京 210042
  • 收稿日期:2020-10-14 出版日期:2021-08-28 发布日期:2021-08-31
  • 通讯作者: 蔡照胜 E-mail:yangxx0316@163.com;jsyc_czs@163.com
  • 作者简介:蔡照胜, 教授, 硕士生导师, 研究方向为生物基功能高分子; E-mail: jsyc_czs@163.com
    杨欣欣(1995-), 女, 河南郑州人, 博士生, 从事生物基功能高分子材料的研究; E-mail: yangxx0316@163.com
  • 基金资助:
    国家自然科学基金资助项目(32071706);国家重点研发计划资助项目(2018YFD0600402)

Preparation and Characterization of Room Temperature Vulcanized Silicone Rubber Cross-linked by TiO2 Modified Dehydroabietic Acid

Xinxin YANG1,2(), Zhaoyu JIANG2, He LIU2, Xujuan HUANG1, Zhaosheng CAI1,*(), Shibin SHANG2   

  1. 1. School of Chemical and Chemistry, Yancheng Institute of Technology, Yancheng 224051, China
    2. Institute of Chemical Industry of Forestry Products, CAF, Nanjing 210042, China
  • Received:2020-10-14 Online:2021-08-28 Published:2021-08-31
  • Contact: Zhaosheng CAI E-mail:yangxx0316@163.com;jsyc_czs@163.com

摘要:

将脱氢枞酸与3-缩水甘油醚氧基丙基三乙氧基硅烷(GTS)反应制备脱氢枞酸基交联剂(DAG),随后与纳米填料TiO2、催化剂二月桂酸二丁基锡和羟基封端聚硅氧烷(PDMS)共同反应制备TiO2增强脱氢枞酸交联室温硫化硅橡胶(TiO2-DAG/RTVSR)。对TiO2-DAG/RTVSR的微观形貌、力学性能、热稳定性及亲疏水性进行测试,结果表明:脱氢枞酸与TiO2在脱氢枞酸交联硅橡胶基质中均匀分散。相较于仅添加DAG得到的DAG/RTVSR-3,TiO2添加量为7%时得到的硅橡胶TiO2-DAG/RTVSR-4的拉伸强度从0.65 MPa提高到0.98 MPa,提升了50.8%,断裂伸长率从250%提升至317%。TiO2添加量由0%提升至7%,硅橡胶热失重5%对应的温度由324.5℃增加到338.8℃,而溶胀度则随之减小,间接反映了交联程度的增加;接触角随着TiO2添加量增加而逐渐减小。带有刚性结构的脱氢枞酸和纳米填料TiO2引入硅橡胶分子链中,通过其协同作用可以有效增强室温硫化硅橡胶的力学性能和热稳定性,综合各项分析结果可知,TiO2添加量7%时的硅橡胶具有最优性能。

关键词: 松香衍生物, 纳米粒子, 协同作用, 力学性能, 热稳定性

Abstract:

Dehydroabietic acid(DA) reacted with 3-glycidyloxypropyltriethoxysilane(GTS) to synthesize dehydroabietic acid-based cross-linking agent(DAG), and then DAG was combined with TiO2, catalyst dibutyltin dilaurate, and hydroxyl polysiloxane(PDMS) to fabricate the TiO2 modified dehydroabietic acid cross-linked the room temperature vulcanized silicone rubber(TiO2-DAG/RTVSR). The microscopic morphology, mechanical properties, thermal stability, and hydrophobicity of the samples were investigated. The results showed that DAG and TiO2 were uniformly dispersed in the dehydroabietic acid cross-linked silicone rubber. Compared with DAG/RTVSR-3 obtained by only adding DAG, when the addition of TiO2 was 7%, the tensile strength of the obtained TiO2-DAG/RTVSR-4 increased from 0.65 MPa to 0.98 MPa which increased by 50.8%, and the elongation at break increased from 250% to 317%.The 5% mass loss temperature of silicone rubber increased from 324.5℃ to 338.8℃ as the addition of TiO2 increased from 0% to 7%; and the swelling degree decreased, which indirectly reflected the increase in the degree of cross-linking.The contact angle gradually decreased with the increasing of TiO2 amount. These results indicated that the synergistic effect of dehydroabietic acid with rigid structure and TiO2 into the molecular chain of silicone rubber could effectively enhance the mechanical properties and thermal stability of room temperature vulcanized silicone rubber.In summary, silicone rubber with 7% TiO2 had the best performance.

Key words: rosin derivatives, nanoparticles, synergistic effect, mechanical properties, thermal stability

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