摘要
利用Stober方法制备不同粒径分布的单分散二氧化硅(nSiO_2),用氨基改性剂对其进行表面改性,将改性前后的nSiO_2粒子分散于聚乙二醇(PEG)中制备PEG/nSiO_2复合体系,并用透射电子显微镜(TEM)、综合热重分析仪(TG)对nSiO_2粒子的形貌及热性能、PEG/nSiO_2复合体系的流变性能进行表征.结果表明:所制备的nSiO_2粒子的粒径为50~300 nm范围,粒子分布均一,通过控制反应物的配比有效控制其粒径;N-氨乙基-γ-氨丙基三甲氧基硅烷"铆接"在nSiO_2粒子表面,氨基改性成功;所制备的PEG/nSiO_2复合体系的流变性能和nSiO_2粒子的粒径和含量相关联,总体规律是黏度随频率增大.粒径对剪切增稠体系影响很大,最佳粒径在120 nm附近.
With the use of silica monodisperse Stober with different particle size distribution was prepared,and then with an amino modifier on silica( nSiO_2) surface modification was prepared,and finally nSiO_2 particles before and after modification were dispersed in polyethylene glycol( PEG) and prepared in the PEG / nSiO_2 composite system,and on the morphology and thermal properties nSiO_2 prepared particles were characterized by Huck rheometer and rheological properties of polyethylene glycol / nSiO_2 composites were investigated with a transmission electron microscope( TEM),integrated thermal gravimetric analysis( TG). The results showed that: particle diameter nSiO_2 prepared in the range of 50 ~ 300 nm,a uniform particle distribution,by controlling the ratio of reactants to the particle diameter was effectively controlled; N-aminoethyl-γ-aminopropyl trimethoxy Silane was " riveted" in the nSiO_2 particle surface; The rheological properties of the prepared PEG /nSiO_2 composite system was related to the particle size and the content of nSiO_2 particles,the general rule was that the viscosity increases with the increase of frequency. The particle size effect on shear thickening system was large and the best partide diameter was in the 120 nm particle size nearby.
出处
《轻工学报》
CAS
2016年第5期43-50,共8页
Journal of Light Industry
基金
国家自然科学基金项目(21271160
20976168
21401170)
郑州轻工业学院博士基金项目(2013BSJJ021)
