功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2015年
4期
4042-4045
,共4页
SiO 2 微球%抗撞击体系%剪切增稠液
SiO 2 微毬%抗撞擊體繫%剪切增稠液
SiO 2 미구%항당격체계%전절증주액
sub-micro silicon dioxide%TEOS%shear thickening
采用改进的溶胶-凝胶法制备出平均粒径为150,180,200和250 nm 的 SiO 2微球,反应温度为20~50℃,正硅酸乙酯浓度为0.2~0.3 mol/L,反应后添加0.02%~0.04%(体积分数)的硅烷偶联剂 KH-570,再通过球磨将亚微米级 SiO 2均匀分散到 PEG(聚乙二醇)中,获得相应的抗撞击体系.利用 TEM、XRD、Physica MCR301型流变仪分别对不同粒径的SiO 2微球的粒度分布、结构以及流变性能进行测试,结果表明,粒径为200 nm 的 SiO 2微球制备的抗撞击体系粒度分布均匀,为非晶结构,并且表现出很好的剪切增稠现象.
採用改進的溶膠-凝膠法製備齣平均粒徑為150,180,200和250 nm 的 SiO 2微毬,反應溫度為20~50℃,正硅痠乙酯濃度為0.2~0.3 mol/L,反應後添加0.02%~0.04%(體積分數)的硅烷偶聯劑 KH-570,再通過毬磨將亞微米級 SiO 2均勻分散到 PEG(聚乙二醇)中,穫得相應的抗撞擊體繫.利用 TEM、XRD、Physica MCR301型流變儀分彆對不同粒徑的SiO 2微毬的粒度分佈、結構以及流變性能進行測試,結果錶明,粒徑為200 nm 的 SiO 2微毬製備的抗撞擊體繫粒度分佈均勻,為非晶結構,併且錶現齣很好的剪切增稠現象.
채용개진적용효-응효법제비출평균립경위150,180,200화250 nm 적 SiO 2미구,반응온도위20~50℃,정규산을지농도위0.2~0.3 mol/L,반응후첨가0.02%~0.04%(체적분수)적규완우련제 KH-570,재통과구마장아미미급 SiO 2균균분산도 PEG(취을이순)중,획득상응적항당격체계.이용 TEM、XRD、Physica MCR301형류변의분별대불동립경적SiO 2미구적립도분포、결구이급류변성능진행측시,결과표명,립경위200 nm 적 SiO 2미구제비적항당격체계립도분포균균,위비정결구,병차표현출흔호적전절증주현상.
In this paper,the SiO 2 particles were prepared by sol-gel method based on St?ber method by control-ling the reaction temperature,the amount of TEOS,the addition of a silane coupling agent KH-570.The result shows that 150,180,200 and 250 nm of silicon dioxide spherical particles can be attained when the reaction temperature is from 20 to 50 ℃,concentration of TEOS is from 0.2 to 0.3 mol/L,the amount of dispersant that added after the reaction is from 0.02 vol% to 0.04vol%.Then,the SiO 2 was dispersed in polyethylene glycol u-niformly by ultrasonic dispersion method,several factors which have influences on the rheological properties of the system,such as the particle size of SiO 2 ,the particle size distribution,the mass fraction of SiO 2 ,molecular weight of polyethylene glycol were studied.Finally we get the anti-impact material.The rheological experiments of sub-micro SiO 2 suspension in polyethylene glycol(PEG)show that the sub-micro SiO 2 with larger particle size and concentrated distribution,higher mass fraction of SiO 2 and PEG with greater molecular weight can be obtained anti-impact system with better shear thickening effect.