高校化学工程学报
高校化學工程學報
고교화학공정학보
Journal of Chemical Engineering of Chinese Universities
2015年
5期
1224-1228
,共5页
张震乾%何剑虹%吉祥%王佩%孔立智
張震乾%何劍虹%吉祥%王珮%孔立智
장진건%하검홍%길상%왕패%공립지
甲基丙烯酸十二氟庚酯%细乳液聚合%助稳定剂%疏水性%半连续聚合
甲基丙烯痠十二氟庚酯%細乳液聚閤%助穩定劑%疏水性%半連續聚閤
갑기병희산십이불경지%세유액취합%조은정제%소수성%반련속취합
dodecafluoroheptyl methacrylate%miniemulsion polymerization%co-stabilizer%hydrophobicity%semibatch polymerization
以甲基丙烯酸十二氟庚酯(DFM)单独作为助稳定剂进行苯乙烯半连续细乳液聚合,并对其最终乳液成膜表面进行疏水性能研究。考察了不同 DFM 用量作为助稳定剂对苯乙烯细乳液聚合过程中单体转化率、初始单体液滴粒径和数目、最终乳胶粒子粒径和数目的影响及成核机理研究;并采用含氟混合单体的细乳液组分进行半连续细乳液聚合。结果表明:细乳液聚合中,当DFM用量在15%(wt)时,最终乳胶粒子数目和初始液体数目比值为1.03,说明细乳液聚合以单体液滴成核为主体。在半连续聚合中,在苯乙烯94.0%转化率滴加细乳液组分产生次生粒子的比例仅为0.05;对其乳胶粒子成膜表面进行研究,发现水接触角可达113±2°。半连续细乳液聚合有效降低DFM用量,成膜表面疏水性良好。
以甲基丙烯痠十二氟庚酯(DFM)單獨作為助穩定劑進行苯乙烯半連續細乳液聚閤,併對其最終乳液成膜錶麵進行疏水性能研究。攷察瞭不同 DFM 用量作為助穩定劑對苯乙烯細乳液聚閤過程中單體轉化率、初始單體液滴粒徑和數目、最終乳膠粒子粒徑和數目的影響及成覈機理研究;併採用含氟混閤單體的細乳液組分進行半連續細乳液聚閤。結果錶明:細乳液聚閤中,噹DFM用量在15%(wt)時,最終乳膠粒子數目和初始液體數目比值為1.03,說明細乳液聚閤以單體液滴成覈為主體。在半連續聚閤中,在苯乙烯94.0%轉化率滴加細乳液組分產生次生粒子的比例僅為0.05;對其乳膠粒子成膜錶麵進行研究,髮現水接觸角可達113±2°。半連續細乳液聚閤有效降低DFM用量,成膜錶麵疏水性良好。
이갑기병희산십이불경지(DFM)단독작위조은정제진행분을희반련속세유액취합,병대기최종유액성막표면진행소수성능연구。고찰료불동 DFM 용량작위조은정제대분을희세유액취합과정중단체전화솔、초시단체액적립경화수목、최종유효입자립경화수목적영향급성핵궤리연구;병채용함불혼합단체적세유액조분진행반련속세유액취합。결과표명:세유액취합중,당DFM용량재15%(wt)시,최종유효입자수목화초시액체수목비치위1.03,설명세유액취합이단체액적성핵위주체。재반련속취합중,재분을희94.0%전화솔적가세유액조분산생차생입자적비례부위0.05;대기유효입자성막표면진행연구,발현수접촉각가체113±2°。반련속세유액취합유효강저DFM용량,성막표면소수성량호。
Dodecafluoroheptyl methacrylate (DFM) was used as the sole co-stabilizer in the styrene (St) semibatch miniemulsion, and the film surface hydrophobicity of the final latexes was studied. The effects of DFM dosage on monomer conversion, number and size of initial monomer droplet and final latex particle were investigated. Fluorine monomer containing miniemulsion components were used. When DFM dosage was 15%(wt), monomer droplet stability can be improved, which provided a droplet to particle ratio of 1:1.03. In semibatch miniemulsion, the number of second particle to feeding droplet ratio was 0.05 at 94.0% St conversion and the final latex film has a water contact angle of 113±2°. The results show that the film prepared by semibatch miniemulsion has good hydrophobicity with less DFM usage.