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PREPARATION OF MULTIFUNCTIONAL ORGANOLITHIUM INITIATOR IN CYCLOHEXANE SOLUTIONS 被引量:4

PREPARATION OF MULTIFUNCTIONAL ORGANOLITHIUM INITIATOR IN CYCLOHEXANE SOLUTIONS
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摘要 Multifunctional organolithium initiator was prepared in cyclohexane solvent. The process started with adding the cyclohexane solution of butadiene to naphthalene-lithium in batches to produce butadiene oligomer dilithium with 4-8 butadiene repeating units. In the first feeding, the maximum loading of cyclohexane and the minimum concentration of butadiene cyclohexane solution must be controlled under Vcyclohexane 〈 1.33 VTHF and p 〉 40.6cN. Then, SnCl4 was added and eventually the multifunctional organolithium initiator containing Sn atom was synthesized through coupling reaction. Experiment results showed that adding the cyclohexane solution in batches was effective in overcoming some difficulties, such as insolubility of naphthalene-lithium in cyclohexane, low efficiency of naphthalene-lithium in initiating butadiene. In practice, benzene can be replaced by cyclohexane completely, which can not only reduce environmental pollution from benzene, but also overcome the difficulty of solvent recovery caused by similar boiling point between benzene and cyclohexane. Prepared with multifunctional organolithium containing Sn atom as initiator, the star-shaped solution polymerized styrene-butadiene rubber (star S-SBR) with better vulcanization performances, lower rolling resistance and higher wet-skid resistance was obtained. Multifunctional organolithium initiator was prepared in cyclohexane solvent. The process started with adding the cyclohexane solution of butadiene to naphthalene-lithium in batches to produce butadiene oligomer dilithium with 4-8 butadiene repeating units. In the first feeding, the maximum loading of cyclohexane and the minimum concentration of butadiene cyclohexane solution must be controlled under Vcyclohexane 〈 1.33 VTHF and p 〉 40.6cN. Then, SnCl4 was added and eventually the multifunctional organolithium initiator containing Sn atom was synthesized through coupling reaction. Experiment results showed that adding the cyclohexane solution in batches was effective in overcoming some difficulties, such as insolubility of naphthalene-lithium in cyclohexane, low efficiency of naphthalene-lithium in initiating butadiene. In practice, benzene can be replaced by cyclohexane completely, which can not only reduce environmental pollution from benzene, but also overcome the difficulty of solvent recovery caused by similar boiling point between benzene and cyclohexane. Prepared with multifunctional organolithium containing Sn atom as initiator, the star-shaped solution polymerized styrene-butadiene rubber (star S-SBR) with better vulcanization performances, lower rolling resistance and higher wet-skid resistance was obtained.
作者 张必英
机构地区 The Key Laboratory of Beijing City on Preparation and Processing of Novel Polymer Materials
出处 《Chinese Journal of Polymer Science》 SCIE CAS CSCD 2011年第4期431-438,共8页 高分子科学(英文版)
基金 supported by the "Tenth Five" National Scientific and Technological Projects (No.2004BA310A41 )
关键词 Multifunctional organolithium initiator Anionic polymerization CYCLOHEXANE Star S-SBR. Multifunctional organolithium initiator Anionic polymerization Cyclohexane Star S-SBR.
分类号 O643.32 [理学—物理化学]
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参考文献18

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同被引文献51

  • 1刘晓磊,张春庆,李杨,宋天喜,王新红,王玉荣.聚合机理转移法制备PMMA-PB-PMMA三嵌段共聚物[J].高分子通报,2010(8):46-51. 被引量:1
  • 2赵晓冬,徐林,李传清,卢松,梁爱民,李伟.锡锂引发溶聚丁苯橡胶微观结构与性能研究[J].石化技术,2007,14(2):10-12. 被引量:10
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  • 8Lu J M, Zhang X Y, Zhao S H, et al. Novel tin-coupled star-shaped medium vinyl butadiene rubber, Ⅱ. Vinyl content, molecular weight, and their effects on properties [J]. J Applied Polym Sci, 2007, 104: 3924-3930.
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  • 10薛联宝 金关泰.阴离子聚合的理论和应用[M].北京:中国友谊出版公司,1990.174-204.

引证文献4

二级引证文献8

Chinese Journal of Polymer Science
2011年 第4期

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