具有潜在耐腐蚀性能的生物基非异氰酸酯聚氨酯涂料研究

Nikhil R Dhore, Ermiya Prasad, R. Narayan, C. R. Rao, A. Palanisamy
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引用次数: 2

摘要

这项工作涉及发展非异氰酸酯聚氨酯(NIPU)复合材料与苯胺低聚物,即四苯胺(TANI)的耐腐蚀涂层。首先,在环氧环内高温高压注入二氧化碳,将环氧大豆油转化为碳酸化油。然后,在CSBO中加入不同重量的低聚苯胺(0.5、1、2和4 wt %(基于CSBO的重量)),用四乙基苯胺(TEPA, 25 wt %基于CSBO)在80°C下固化12-15小时。研究了低聚物负载对独立膜的热、力学和表面润湿性能的影响。薄膜的ATR-FTIR光谱显示出与氨基甲酸酯键对应的峰,证实了氨基甲酸酯键的形成。TGA分析表明,低聚苯胺的加入对初始降解温度影响不大;但随着四苯胺用量的增加,其残留量有所增加。抗拉强度和断裂伸长率均随低聚苯胺含量的增加而增加。在接近室温(即20-30°C)的条件下观察到薄膜的玻璃化转变温度,发现复合材料的接触角小于裸露的NIPU薄膜。然而,所有的组合物都是疏水性的,其接触角在98-110°范围内。对膜的横截面进行SEM分析,证实了四苯胺颗粒的均匀分布,表面形貌表明,随着四苯胺的加载,表面粗糙度从0.5增加到4%。涂覆NIPU的MS板具有良好的阻隔性能,随着TANI载荷的增加,腐蚀速率降低。盐雾试验表明,与纯NIPU涂层相比,低聚苯胺提高了涂层对MS的附着力和耐腐蚀性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Studies on Biobased Non-Isocyanate Polyurethane Coatings with Potential Corrosion Resistance
This work deals with the development of non-isocyanate polyurethane (NIPU) composites with an aniline oligomer, viz., tetraniline (TANI) for corrosion-resistant coatings. Firstly, epoxidizedsoyabean oil was converted to carbonated oil by inserting CO2 under high temperature and pressure into the epoxy ring. Then, varying weights of oligoaniline—0.5, 1, 2 and 4 wt % (based on the weight of CSBO)—were added to CSBO and cured with tetraethylenepentamine (TEPA, 25 wt % based on CSBO) at 80 °C for 12–15 h. The effects of oligomer loading on the thermal, mechanical and surface wetting properties of the free standing films were studied. The ATR-FTIR spectra of the films exhibited peaks corresponding to the bis-carbamate linkages, confirming the formation of urethane linkages. TGA analysis showed that the addition of oligoaniline did not alter the initial degradation temperature much; however, the residue increased with increasing loading of tetraniline. Both tensile strength and elongation (at break) increased with increasing oligoaniline content. While the glass transition temperature of the films was observed at approximately room temperature, i.e., 20–30 °C, for all the compositions, the contact angles of the composites were found to be less than that of the bare NIPU films. However, all the compositions were hydrophobic, exhibiting contact angles in the 98–110° range. SEM analysis of the cross-sections of the films confirmed the uniform distribution of tetraniline particles and surface morphology showed that the roughness increased with the loading of tetraniline from 0.5 to 4%. MS panels coated with NIPU exhibited good barrier properties and as loading of TANI increased, the rate of corrosion decreased. Salt spray tests indicated that oligoaniline improved the adhesion of the coating to MS and corrosion resistance compared to the neat NIPU coating.
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