高校化学工程学报
高校化學工程學報
고교화학공정학보
JOURNAL OF CHEMICAL ENGINEERING OF CHINESE UNIVERSITIES
2013年
5期
854-860
,共7页
郭含培%王文俊%李伯耿%朱世平
郭含培%王文俊%李伯耿%硃世平
곽함배%왕문준%리백경%주세평
半连续RAFT反相乳液聚合%臂先方法%阳离子聚丙烯酰胺%星型聚合物%絮凝
半連續RAFT反相乳液聚閤%臂先方法%暘離子聚丙烯酰胺%星型聚閤物%絮凝
반련속RAFT반상유액취합%비선방법%양리자취병희선알%성형취합물%서응
semi-batch RAFT inverse emulsion copolymerization%arm-first approach%cationic polyacrylamide%star polymer%flocculation
首次提出采用“臂先”方法的丙烯酰胺(AM)、甲基丙烯酰氧乙基三甲基氯化铵(DMC)及N,N’-亚甲基双丙烯酰胺(BisAM)的半连续RAFT反相乳液共聚合方法制备星型阳离子聚丙烯酰胺(sCPAM),该聚合物具有阳离子链段集中在含超支化聚丙烯酰胺(PAM)核的臂末端的结构。通过控制AM和BisAM的加料以及AM与RAFT链转移剂的比例,合成了不同臂长、超支化 PAM 核及臂末端阳离子组成的 sCPAM。研究表明在使用 BisAM 与 AM 和 DMC 摩尔比为2~5:1600的低二烯类单体用量条件下,高效制备了臂数为2.5~6.9、星型聚合物含量高达92.9%的sCPAM。TiO2浊液絮凝研究表明提高星型结构含量以及臂末端阳离子密度的 sCPAM 具有更好的絮凝效果,絮凝性能优于具有更高阳离子度与分子量的线性无规阳离子聚丙烯酰胺工业絮凝剂C535M。
首次提齣採用“臂先”方法的丙烯酰胺(AM)、甲基丙烯酰氧乙基三甲基氯化銨(DMC)及N,N’-亞甲基雙丙烯酰胺(BisAM)的半連續RAFT反相乳液共聚閤方法製備星型暘離子聚丙烯酰胺(sCPAM),該聚閤物具有暘離子鏈段集中在含超支化聚丙烯酰胺(PAM)覈的臂末耑的結構。通過控製AM和BisAM的加料以及AM與RAFT鏈轉移劑的比例,閤成瞭不同臂長、超支化 PAM 覈及臂末耑暘離子組成的 sCPAM。研究錶明在使用 BisAM 與 AM 和 DMC 摩爾比為2~5:1600的低二烯類單體用量條件下,高效製備瞭臂數為2.5~6.9、星型聚閤物含量高達92.9%的sCPAM。TiO2濁液絮凝研究錶明提高星型結構含量以及臂末耑暘離子密度的 sCPAM 具有更好的絮凝效果,絮凝性能優于具有更高暘離子度與分子量的線性無規暘離子聚丙烯酰胺工業絮凝劑C535M。
수차제출채용“비선”방법적병희선알(AM)、갑기병희선양을기삼갑기록화안(DMC)급N,N’-아갑기쌍병희선알(BisAM)적반련속RAFT반상유액공취합방법제비성형양리자취병희선알(sCPAM),해취합물구유양리자련단집중재함초지화취병희선알(PAM)핵적비말단적결구。통과공제AM화BisAM적가료이급AM여RAFT련전이제적비례,합성료불동비장、초지화 PAM 핵급비말단양리자조성적 sCPAM。연구표명재사용 BisAM 여 AM 화 DMC 마이비위2~5:1600적저이희류단체용량조건하,고효제비료비수위2.5~6.9、성형취합물함량고체92.9%적sCPAM。TiO2탁액서응연구표명제고성형결구함량이급비말단양리자밀도적 sCPAM 구유경호적서응효과,서응성능우우구유경고양리자도여분자량적선성무규양리자취병희선알공업서응제C535M。
An “arm-first” semi-batch RAFT inverse emulsion copolymerization of acrylamide (AM), [2-(methacryloyloxy)ethyl]trimethylammonium chloride (DMC), and N,N'-methylenebisacrylamide (BisAM) was developed for the first time to synthesize the star cationic polyacrylamides (sCPAM) with cationic chain segments concentrating at the arm ends of the hyperbranched polyacrylamide (PAM) cores. The sCPAMs having various arm lengths, hyperbranched PAM cores, and chain-end cationic segment compositions were synthesized via controlling the AM and BisAM feeding and the molar ratio of AM to RAFT chain transfer agent. The sCPAMs having the number of arms between 2.5 and 6.9 and up to 92.9%(wt) of star structures were successfully produced at a low usage of BisAM with the molar ratios of BisAM to AM and DMC of 2~5 to 1600. The flocculation test with TiO2 particles shows that the sCPAMs comprising larger fraction of star polymer and having high terminal cationic monomer density possess better flocculation performance. The performance of the sCPAM sample was superior to that of the commercial linear cationic PAM sample C535M which has higher cationic density and higher molecular weight.
