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表面交联后处理对高吸水性树脂性能的影响 被引量:6

Effects of Surface Crosslinking on the Properties of Super Absorbent Polymer
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摘要 将硫酸铝、丙三醇和乙二醇二缩水甘油醚溶于水配制成表面交联液,对水溶液聚合法合成的高吸水性树脂(SAP)进行表面交联后处理,研究了硫酸铝、丙三醇和乙二醇二缩水甘油醚用量,表面交联温度和表面交联液用量对SAP吸液性能和加压吸收量(AUL)的影响。运用FTIR和SEM对SAP进行了表征。结果表明,随着硫酸铝用量的增加,SAP的吸液倍率增大,AUL减小。而SAP吸液倍率随着乙二醇二缩水甘油醚用量和表面交联温度的增大而降低,AUL则随之升高。当w(丙三醇)=9%时,SAP吸水倍率和吸盐水倍率有最大值685 g/g和79g/g,当w(丙三醇)=12.7%时,AUL达到最大值33 g/g。当交联液用量为7.7 g时,SAP的综合性能最好。 Super absorbent polymer (SAP) was synthesized by aqueous solution polymerization. Then SAP was post-processed with a mixture of aluminum sulfate, glycerol and ethylene glycol diglycidyl ether. The influence of the amount of different surface crosslinking agents, surface crosslinking temperature and dosage of surface crosslinking solution on the performance of SAP was investigated. SAP was also characterized by means of FTIR and SEM. The results show that the absorbency capacity increased with the increasing amount of aluminum sulfate while AUL decreased. Oppositely, the absorbency capacity decreased with the increasing dosage of ethylene glycol diglycidyl ether and the increasing temperature of the surface crosslinking, while AUL increased. The maximum absorbency capacity for deionized water and saline water was 685 g,/g and 79 g/g respectively when the mass fraction of glycerol was 9% , and AUL reached its maximum when the mass fraction of glycerol was 12.7%. When the amount of surface crosslinking solution was 7.7 g, the combination properties of SAP were the best.
作者 张小磊 沈慧芳 陈焕钦
机构地区 华南理工大学化学与化工学院
出处 《精细化工》 EI CAS CSCD 北大核心 2013年第11期1274-1278,共5页 Fine Chemicals
关键词 高吸水性树脂 表面交联 吸液性能 加压吸收量 丙烯酸系列化学品 super absorbent polymer surface crosslinking absorbency capacity absorbency underload acrylic series chemicals
分类号 TQ322.91 [化学工程—合成树脂塑料工业]
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参考文献17

  • 1Kosemund K,Schlalter H,Ochsenhirt J L,et al. Safety evaluation of superabsorbent baby diapers [ J ]. Regulalory Toxicology and Pharmacology ,2009,53 ( 2 ) :81 - 89.
  • 2Moslemi Z, Habibi D, Asgharzadeh A,et al. Effects of super absorbent polymer and plant growth promoting rhizobacteria on yield and yield components of maize under drought stress and nnrmal conditions [ J ]. Aft J Agr Res,2011,6 ( 19 ) :4471 - 4476.
  • 3Li X, He J, I,iu Y ,et al. Effects of super absorbent polymers on soil microbial properties and Chinese cabbage (Brassica cbinensis ) growth [ j ]. Journal of Soils and Sediments,2013 : 1 - 9.
  • 4Cusson D, Mechtcherine V, Lura P. Practical applications of superabsorbent polymers in concrete and other building materials [ M ]. Application of Super Absorbent Polymers (SAP) in Concrete Construction ,Springer,2012 : 137 - 148.
  • 5孙民伟,张健,高彦芳,谢续明.交联剂分子量对高吸水性树脂性能的影响[J].高分子学报,2004,14(4):595-599. 被引量:21
  • 6lshizaki K, Kanto T, Sakamoto S,et al. Surface-crosslinking process for water-absorbent resin[ P]. EP:0937739,2005 - 12 - 10.
  • 7Sumiya T, Tanaka K, Olhers. Absorbent composition and disposable diaper containing the same [ P ]. EP :0629411,2001 - 10 - 31.
  • 8Daniel T, Riegel U, Weismantel M. Water-absorbing agent, method for the produetion and the utilization thereof [ P ]. US : 6831122, 2004 - 04 - 22.
  • 9Abd Alia S G,Sen M,EI-Naggar A W M. Swelling and mechanical properties of superabsorbent hydrogels based on Tara gmn/acrylic acid synthesized by gamma radiation [ J ]. Carbohydrate Polymers ,2012,89 ( 2 ) :478 - 485.
  • 10Kabiri K,Hesarian S,Jamshidi A,et al. Minimization of residual monomer content of superabsorbent hydrogels via alteration of initiating system[ J]. Journal of Applied Polymer Science,2011, 120(5) :2716 -2723.

二级参考文献34

  • 1徐志良,范力仁,沈上越,许剑,凌辉.表面Ca2+交联对蒙脱石/聚丙烯酸(钠)吸水保水复合材料性能的影响[J].功能材料,2004,35(z1):2596-2598. 被引量:22
  • 2朱秀林,顾梅,倪新元.丙烯酸-丙烯酰胺共聚物和高岭土交联的吸水树脂的合成及性能研究[J].石油化工,1994,23(7):431-435. 被引量:15
  • 3Vollmert B 黄家贤 译.Grundriss der Markromolekularen Chemie(高分子化学基础),1st Edn(第1版)[M].Beijing(北京):Chemical Industry Press(化学工业出版社),1986.246.
  • 4惠建斌 赵博欣 刘惠洲.Chemistry(化学通报)[J],1999,(7):50-50.
  • 5柳明珠 曹丽歆.Chin J Appl Chem(应用化学)[J],2002,19(5):455-455.
  • 6柳明珠 吴靖嘉.J Lanzhou Univ(Nat Sci Edn)(兰州大学学报(自然科学版))[J],1991,27(8):74-74.
  • 7宋彦凤 崔占臣 陈欣芳.Chin J Appl Chem(应用化学)[J],1995,12(1):117-117.
  • 8孙克时 李志强 张淑玲.Chem Adh(化学与粘合)[J],2000,(3):105-105.
  • 9张宝华 张剑秋 孙莹.Shanghai Chem Ind(]上海化工)[J],2001,(24):16-16.
  • 10朱秀林 顾梅 倪新元.Petrochem Technol(石油化工)[J],1994,(23):431-431.

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精细化工
2013年 第11期

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