Alternative TitlePreparation and Characterization of Polysulfide Sealant Microcapsules Based on in situ Polymerization of Urea and Formaldehyde
王璇1; 金涛2; 王浩伟2; 廖圣智2; 杨怀玉1
Source Publication高等学校化学学报
Abstract设计了以脲醛树脂为壁材,聚硫橡胶密封剂为囊芯的微胶囊.在弱酸性条件下,尿素和甲醛在经乳化分散后的聚硫橡胶密封剂微粒表面发生原位聚合,制备了颗粒均匀、形貌规整、分散性好的密封剂微胶囊.通过红外光谱和表面观察技术对微胶囊进行了表征,并且对微胶囊中密封剂含量进行测定.通过对不同物料和反应影响因素(乳化剂浓度、搅拌速度、反应温度和p H值等)进行了系统考察,获得了优化的微胶囊制备工艺条件.为进一步拓展聚硫橡胶密封剂预涂敷技术和工程化应用提供了有益参考.
Other AbstractA novel microcapsule of polysulfide sealant was designed and prepared by in situ polymerization technology with poly(urea-formaldehyde)resin(PUF)as shell material and polysulfide rubber as core material under the weak acid conditions.The microencapsulating process of core material,the morphology and chemical structure of microcapsule were monitored and characterized by surface observation and Fourier-transform infrared spectroscopy(FTIR)techniques,respectively.At the earlier stage of emulsification and dispersion,it was found that the particle diameter of dispersed polysulfide rubber decreased nonlinearly with the increase of PVA-124 concentration and PVA-124 was the best emulsifying agent among the various stabilizers studied.Through a large number of experiments,the following optimized conditions for the emulsification and dispersion of polysulfide rubber were obtained:using 1.5%(mass fraction)PVA solution as dispersion phase and Ph Me as diluter,stirring speed 500 r/min and stirring time 0.5 h.At the later stage of polymerization reaction,we found that when the p H of solutions was adjusted to 2.5—3.5 and the reaction temperature was kept at 25℃,the polysulfide rubber microspheres could be gradually coated by PUF with the increase of reaction time,and the polysulfide rubber microspheres were completely encapsuled after the polymerization reaction was continued for 6 h.Then the products were placed in dry oven at 50℃for one day after filtering.The results indicated that PUF microcapsules containing polysulfide rubber could be successfully synthesized,which had regularly spherical shape,rough outer surface and good dispersion.In addition,the optical photos of microcapsules showed that the average particle diameter was about 200μm.Based on the detailed examining of some affecting factors such as emulsifier types and its concentration,stirring speed,reaction temperature and p H value,the optimum prepared condition was obtained.The quantitative analysis results revealed that the encapsulation efficiency of the core materials was 73%and the content of polysulfide sealant in microcapsules was 65%by ultraviolet(UV)spectrophotometer.The present work provides a valuable help for the further investigation and industrial application for the pre-coated technology of polysulfide sealant in the future.
Keyword聚硫橡胶 脲醛树脂 原位聚合 微胶囊
Indexed ByCSCD
Citation statistics
Document Type期刊论文
Recommended Citation
GB/T 7714
王璇,金涛,王浩伟,等. 基于脲醛原位聚合制备聚硫密封剂微胶囊[J]. 高等学校化学学报,2018,39.0(002):397-404.
APA 王璇,金涛,王浩伟,廖圣智,&杨怀玉.(2018).基于脲醛原位聚合制备聚硫密封剂微胶囊.高等学校化学学报,39.0(002),397-404.
MLA 王璇,et al."基于脲醛原位聚合制备聚硫密封剂微胶囊".高等学校化学学报 39.0.002(2018):397-404.
Files in This Item:
There are no files associated with this item.
Related Services
Recommend this item
Usage statistics
Export to Endnote
Google Scholar
Similar articles in Google Scholar
[王璇]'s Articles
[金涛]'s Articles
[王浩伟]'s Articles
Baidu academic
Similar articles in Baidu academic
[王璇]'s Articles
[金涛]'s Articles
[王浩伟]'s Articles
Bing Scholar
Similar articles in Bing Scholar
[王璇]'s Articles
[金涛]'s Articles
[王浩伟]'s Articles
Terms of Use
No data!
Social Bookmark/Share
All comments (0)
No comment.

Items in the repository are protected by copyright, with all rights reserved, unless otherwise indicated.