Nonionic emulsification compound system of OP-10/AEO with low foaming properties was utilized to solve the defection problems in emulsion microcapsule preparation. The microcapsules of urea-formaldehyde resin for self-healing material were synthesized by in-situ polymerization with diluted epoxy resin E-51 as the core materi-al. The formation process and the thermal stability were analyzed by thermogravimetric analysis( TGA) and optical microscope( OM);the chemical structure was characterized by Fourier transform infrared( FTIR) and the Gauss fit-ting was used in the particle size distribution of microcapsules. The selection of the emulsifier system, and the cor-responding amount of the emulsifier, the composition of raw materials, and the agitation rate were discussed to fur-ther illustrate the influence of the performance of the microcapsules. The results demonstrated that the system can effectively solve the emulsifier bubbling problem ( amount:5. 0%, the mass ratio of the core materials to the shell materials:0. 8∶ 1 and agitation rate: 1 200 r/min ) . The encapsulation ratio of microcapsules was increased to 80% with narrow particle size distribution and better chemical stability.%提出采用低起泡性的OP-10/AEO非离子复合乳化体系解决微胶囊制备过程中乳化缺陷问题。以改性环氧树脂E-51为芯材修复剂,通过原位聚合法制备脲醛树脂自修复微胶囊。采用光学显微镜、傅里叶红外光谱仪、同步热分析仪分别对形成过程、化学结构及热稳定性进行分析。利用Gauss拟合研究粒径分布,并探讨了乳化剂体系选择、乳化剂用量、芯壁比、搅拌速率等因素对微胶囊性能的影响。结果表明,该体系能有效改善乳化剂起泡效果,用量为5.0%,芯壁比为0.8∶1,搅拌速率为1200 r/min,微胶囊包封率达到80%,粒径分布相对集中,具备良好的室温贮存性及热稳定性。
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