合成橡胶工业
閤成橡膠工業
합성상효공업
China Synthetic Rubber Industry
2015年
6期
442-446
,共5页
包巧云%张雷%邱迎昕%程斌
包巧雲%張雷%邱迎昕%程斌
포교운%장뢰%구영흔%정빈
异丁烯%对甲基苯乙烯%正离子溶液聚合%无规共聚%氯化乙基铝%转化率%相对分子质量
異丁烯%對甲基苯乙烯%正離子溶液聚閤%無規共聚%氯化乙基鋁%轉化率%相對分子質量
이정희%대갑기분을희%정리자용액취합%무규공취%록화을기려%전화솔%상대분자질량
isobutylene%p-methylstyrene%cat-ionic solution polymerization%random copolymeriza-tion%ethyl aluminium chloride%conversion%relative molecular mass
以正己烷(n - Hex)为溶剂或 n - Hex/一氯甲烷(CH3 Cl)混合物为溶剂体系、氯化氢/氯化乙基铝/二氯二氰基苯醌为引发体系,采用正离子溶液聚合法对异丁烯(IB)与对甲基苯乙烯(p - MeSt)在-90~-20℃下进行无规共聚,考察了 n - Hex/ CH3 Cl(体积比)、二氯乙基铝(EtAlCl2)/一氯二乙基铝(Et2 AlCl)(摩尔比)及反应温度对共聚反应转化率和共聚物相对分子质量的影响。结果表明,随着n - Hex/ CH3 Cl 混合溶剂体系中 n - Hex 体积分数的增加,共聚反应转化率和共聚物的相对分子质量均下降;在 EtAlCl2/ Et2 AlCl 共引发体系中,随着 Et2 AlCl 摩尔比的增加,共聚物的相对分子质量不断增大;随着聚合反应温度的升高,共聚反应转化率和共聚物的相对分子质量均下降。
以正己烷(n - Hex)為溶劑或 n - Hex/一氯甲烷(CH3 Cl)混閤物為溶劑體繫、氯化氫/氯化乙基鋁/二氯二氰基苯醌為引髮體繫,採用正離子溶液聚閤法對異丁烯(IB)與對甲基苯乙烯(p - MeSt)在-90~-20℃下進行無規共聚,攷察瞭 n - Hex/ CH3 Cl(體積比)、二氯乙基鋁(EtAlCl2)/一氯二乙基鋁(Et2 AlCl)(摩爾比)及反應溫度對共聚反應轉化率和共聚物相對分子質量的影響。結果錶明,隨著n - Hex/ CH3 Cl 混閤溶劑體繫中 n - Hex 體積分數的增加,共聚反應轉化率和共聚物的相對分子質量均下降;在 EtAlCl2/ Et2 AlCl 共引髮體繫中,隨著 Et2 AlCl 摩爾比的增加,共聚物的相對分子質量不斷增大;隨著聚閤反應溫度的升高,共聚反應轉化率和共聚物的相對分子質量均下降。
이정기완(n - Hex)위용제혹 n - Hex/일록갑완(CH3 Cl)혼합물위용제체계、록화경/록화을기려/이록이청기분곤위인발체계,채용정리자용액취합법대이정희(IB)여대갑기분을희(p - MeSt)재-90~-20℃하진행무규공취,고찰료 n - Hex/ CH3 Cl(체적비)、이록을기려(EtAlCl2)/일록이을기려(Et2 AlCl)(마이비)급반응온도대공취반응전화솔화공취물상대분자질량적영향。결과표명,수착n - Hex/ CH3 Cl 혼합용제체계중 n - Hex 체적분수적증가,공취반응전화솔화공취물적상대분자질량균하강;재 EtAlCl2/ Et2 AlCl 공인발체계중,수착 Et2 AlCl 마이비적증가,공취물적상대분자질량불단증대;수착취합반응온도적승고,공취반응전화솔화공취물적상대분자질량균하강。
Random copolymerization of isobutyl-ene / p-methylstyrene was conducted by cationic solu-tion polymerization with initiating system of HCl/ eth-yl aluminium chloride / 2, 3-dicyano-5, 6-dichloro-benzoquinone in the presence of n-hexane( n-Hex) or mixture diluent of n-Hex / CH3 Cl at - 90 -- 20 ℃. The influences of the volume ratio of n-Hex / CH3 Cl, the mole ratio of dichloro ethyl alu-minum ( EtAlCl2 ) / diethtyl aluminiun chloride (Et2 AlCl), and the reaction temperature on the conversion and the relative molecular mass of the co-polymer were investigated. The results showed that conversion of monomers and relative molecular mass of the copolymer decreased with increasing n-Hex volume fraction in n-Hex / CH3 Cl mixture. Relative molecular mass obviously increased with increasing Et2 AlCl mole ratio in EtAlCl2 / Et2 AlCl. Higher re-action temperature lowered conversion and relative molecular mass.