相关链接
联系方式
  • 通信地址:吉林省长春市朝阳区前进大街5988
  • 邮编:130012
  • 电话:00000000000
  • 传真:
  • Email:jiezhao@jlu.edu.cn
当前位置:> 首页 > 论文著作 > 正文
【2023年影响因子/JCR分区:6.206 /Q1】High adhesive and mechanically stable SR/PU IPNs coating with dual-functional antifouling/anticorrosive performances
作者:Mingyao Gao a, Jie Zhao a, Ge Wang c, Huichao Jin a, Jianfu Wang a, Limei Tian a b
关键字:Silicone rubberPolyurethaneInterpenetrating polymer networksSynergistic effectAntifoulingAnticorrosion
论文来源:期刊
具体来源:Progress in Organic Coatings
发表时间:2023年
Silicone rubber (SR) based coatings with remarkable antifouling performances have received tremendous interests due to their prominent merits of environmental adaptability, stability, non-toxicity. However, it still remains a great challenge to fabricate SR-based antifouling coatings with both high mechanical properties for the bulk coating and high adhesion properties to substrates. Herein, a dual-functional SR-based coating with both antifouling and anticorrosive performances was developed by incorporating polyurethane (PU) chains into the SR framework to form SR/PU interpenetrating polymer networks (SR/PU IPNs), to maintain its high adhesion to metal substrate without compromising surface antifouling properties. By adjusting the mass ratio of SR and PU components, the adhesion of the SR/PU IPNs to the substrate as well as its mechanical properties can be remarkably improved. Compared with the pristine SR, the SR/PU75 IPNs possessed the optimized mechanical properties, with the increases in the Young''s modulus and compression modulus, by ~312 % and ~289 % respectively. Additionally, the adhesion strength of the composite was increased by 369 %. Owing to the synergistic effect of SR/PU IPNs, the SR/PU75 IPNs realized synchronous enhancement of antifouling and anticorrosion performance. After 28-day immersion in 3.5 % NaCl solution, the SR/PU75 IPNs coating was tightly bonded with the substrate, and exhibited a maximum |Z|0.01Hz value of 1.254 × 108 Ω·cm2.This proposed dual-functional SR/PU IPNs coating may provide a novel strategy for the future development of marine instruments and equipment, where both strong mechanical performances and high antifouling/anticorrosion performances are acquired.