高校化学工程学报
高校化學工程學報
고교화학공정학보
JOURNAL OF CHEMICAL ENGINEERING OF CHINESE UNIVERSITIES
2014年
3期
561-566
,共6页
雷亮%夏正斌%邢俊恒%钟理
雷亮%夏正斌%邢俊恆%鐘理
뢰량%하정빈%형준항%종리
丙烯酸酯%乳液%室温交联%甲基丙烯酸乙酰乙酰氧基乙酯
丙烯痠酯%乳液%室溫交聯%甲基丙烯痠乙酰乙酰氧基乙酯
병희산지%유액%실온교련%갑기병희산을선을선양기을지
acrylate%emulsion%ambient crosslinking%acetoacetoxyethyl methacrylate
采用半连续种子乳液聚合法合成了核壳型乙酰乙酰基丙烯酸酯聚合物乳液,并采用1,6-己二胺对其进行了室温交联改性。探讨了乳液聚合反应条件和交联单体甲基丙烯酸乙酰乙酰氧基乙酯(AAEM)用量对乳液及乳胶膜性能的影响。结果表明:当乳化剂十二烷基联苯醚二磺酸钠(DSB)、引发剂过硫酸钾(KPS)用量分别为单体总量的1.5%(wt)和0.5%(wt)时,单体转化率高,凝胶率低。透射电镜(TEM)分析显示乳胶粒呈明显的核壳结构,粒径约为130 nm。DSC、TGA 和力学性能测试表明交联提高了乳胶膜的玻璃化转变温度、热稳定性及力学性能。随着 AAEM 用量的增加,乳胶膜的性能逐渐得到提高。当AAEM用量为单体总量的7%(wt)时,加入己二胺的乳液仍贮存稳定,可以单组分包装,并且交联后的乳胶膜性能优异。
採用半連續種子乳液聚閤法閤成瞭覈殼型乙酰乙酰基丙烯痠酯聚閤物乳液,併採用1,6-己二胺對其進行瞭室溫交聯改性。探討瞭乳液聚閤反應條件和交聯單體甲基丙烯痠乙酰乙酰氧基乙酯(AAEM)用量對乳液及乳膠膜性能的影響。結果錶明:噹乳化劑十二烷基聯苯醚二磺痠鈉(DSB)、引髮劑過硫痠鉀(KPS)用量分彆為單體總量的1.5%(wt)和0.5%(wt)時,單體轉化率高,凝膠率低。透射電鏡(TEM)分析顯示乳膠粒呈明顯的覈殼結構,粒徑約為130 nm。DSC、TGA 和力學性能測試錶明交聯提高瞭乳膠膜的玻璃化轉變溫度、熱穩定性及力學性能。隨著 AAEM 用量的增加,乳膠膜的性能逐漸得到提高。噹AAEM用量為單體總量的7%(wt)時,加入己二胺的乳液仍貯存穩定,可以單組分包裝,併且交聯後的乳膠膜性能優異。
채용반련속충자유액취합법합성료핵각형을선을선기병희산지취합물유액,병채용1,6-기이알대기진행료실온교련개성。탐토료유액취합반응조건화교련단체갑기병희산을선을선양기을지(AAEM)용량대유액급유효막성능적영향。결과표명:당유화제십이완기련분미이광산납(DSB)、인발제과류산갑(KPS)용량분별위단체총량적1.5%(wt)화0.5%(wt)시,단체전화솔고,응효솔저。투사전경(TEM)분석현시유효립정명현적핵각결구,립경약위130 nm。DSC、TGA 화역학성능측시표명교련제고료유효막적파리화전변온도、열은정성급역학성능。수착 AAEM 용량적증가,유효막적성능축점득도제고。당AAEM용량위단체총량적7%(wt)시,가입기이알적유액잉저존은정,가이단조분포장,병차교련후적유효막성능우이。
A core-shell acrylate polymer emulsion containing acetoacetate group was synthesized via semi-continuous seeded emulsion polymerization, and the resulted polymer was crosslinked with 1,6-hexamethylenediamine at ambient temperature. The effects of polymerization condition and acetoacetoxyethyl methacrylate (AAEM) contents on the property of the emulsion and the latex films were discussed. The results indicate that the monomer conversion rate is high and the gel content is low when the content of the emulsifier (dodecyl diphenyl ether disulfonic acid sodium, DSB) and the initiator (potassium persulfate, KPS) was 1.5%(wt) and 0.5%(wt), respectively. TEM analysis indicates that the latex particle has an obvious core-shell structure and the particle size is about 130 nm. DSC, TGA and mechanical property tests indicate that crosslinking enhances the glass-transition temperature, thermostability and mechanical properties of the latex films. These properties of the latex films are improved by increasing AAEM. When 7%(wt) of AAEM was used, the emulsion had good storage stability even 1,6-hexamethylenediamine was added into the emulsion. Therefore, the crosslinking process improves the performance of the obtained latex films.