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Citation: MA Rui, LI Shuangshuang, WANG Xiaowei, FU Zhilei, PAN Ge, FU Bo, SHI Tongfei, HUANG Yineng, TANG Huaqing, LI Sijia, XU Donghua, ZHOU Hengwei. Relationship Between Particle Size and Distribution of Commercial Polyacrylic Superabsorbent Resin and Its Gelation Concentration[J]. Chinese Journal of Applied Chemistry, ;2019, 36(7): 807-814. doi: 10.11944/j.issn.1000-0518.2019.07.180411 shu

Relationship Between Particle Size and Distribution of Commercial Polyacrylic Superabsorbent Resin and Its Gelation Concentration

  • a.

    Xinjiang Laboratory of Phase Transitions and Microstructures in Condensed Matter Physics, College of Physical Science and Technology, Yili Normal University, Yining, Xinjiang 835000, China

  • b.

    State Key Laboratory of Polymer Physics and Chemistry, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, Changchun 130022, China

  • c.

    Department of Fire Commanding, China People's Police University, Langfang, Hebei 065000, China

  • d.

    University of Science and Technology of China, Hefei 100039, China

  • Corresponding author: XU Donghua, dhxu@ciac.ac.cn ZHOU Hengwei, zhw33221@163.com
  • Received Date: 26 December 2018
    Revised Date: 4 March 2019
    Accepted Date: 9 April 2019

    Fund Project: the Graduate Research and Innovation Project of Yili Normal University YLSF2017033the Planned Project of Technical Research Planned Project of Ministry of Public Security 2017JSYJC04Supported by the National Natural Science Foundation of China(No.21274152), the Graduate Research and Innovation Project of Yili Normal University(No.YLSF2017033), the Planned Project of Technical Research Planned Project of Ministry of Public Security(No.2017JSYJC04)the National Natural Science Foundation of China 21274152

Figures(6)

  • The effects of particle size and distribution of six commercial polyacrylic superabsorbent resins(SAP) on the critical concentration of gel formation were studied. The compositions of the samples were analyzed by infrared spectroscopy and X-ray photoelectron spectroscopy. The size and distribution of particles of dry samples were counted by using polarized light microscopy and ImageJ software, and were estimated by measuring the expansion ratio of the sample after water absorption. The critical gelation concentration of these superabsorbent resins was determined by rheological method and inverted experiment. The results show that the effect of the particle sizes of the six commercial polyacrylic superabsorbent resins on gel formation is not consistent with the corresponding theoretical prediction, which is caused by the uneven width of the particle size distribution. In the uniform range dominated by particle size distribution, the critical gelation concentration of the sample decreases with the increase of particle size.
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    1. [1]

      ZHANG Shengzu, DU Yong, YUAN Ting. Synthesis and Properties of Super Absorbents Poly(acrylic salt-acrylamide) by Inverse Suspension Polymerization[J]. J Wuhan Text Univ, 2011,24(3):31-34. doi: 10.3969/j.issn.1009-5160.2011.03.008

    2. [2]

      KANG Hongmei, XIE Jianjun, LIU Yang. Study on Polymerization and Absorbency of Acrylic-Based Polymer[D]. Hunan: Xiangtan University, 2002.(in Chinese 

    3. [3]

      ZHANG Xiaolei, TIAN Qian, LI Lei. Preparation of Super Absorbent Polymer via Static Aqueous Solution Polymerization[J]. Guangdong Chem Ind, 2016,16(43):88-90.  

    4. [4]

      ZHANG Chuanjuan, LIN Jianmin, WU Jihuai, et al. Preparation and Property of Poly(Sodium Acrylate-Acrylamide)/Agar-Modified Bentonite Superabsorbent Composite[D]. Fujian: Huaqiao University, 2007(in Chinese).

    5. [5]

      WANG Fei. Study on Modification and Properties of Polyacrylic Superabsorbent Resin[D]. Guangzhou: South China University of Technology, 2016(in Chinese).

    6. [6]

      CHU Jianyun, LIU Xiaodong, LIU Ruobing. Synthesis and Properties of Polyacrylic Superabsorbent with Semi-IPN Structure[J]. J Sichuan Univ, 2004,36(2):62-68. doi: 10.3969/j.issn.1009-3087.2004.02.015

    7. [7]

      CHEN Ligui. Preparation of Polyacrylic Acid(Sodium) High Water-Absorbing Resinby Solution Method and Its Influencing Factors Analysis[J]. J Anhui Agric Sci, 2008,36(12):4813-4814. doi: 10.3969/j.issn.0517-6611.2008.12.005

    8. [8]

      WANG Dongdong. Synthesis and Modification Research of Polyacrylic Acid Sodium Absorbent Materials[D]. Jiangxi: Nanchang University, 2014(in Chinese).

    9. [9]

      WANG Manyi. Preparation of Polyacrylic Acid Superabsorbent Polymers and Electrospun Fibers[D]. Shanghai: Dnghua University, 2014(in Chinese). 

    10. [10]

      ZHANG Ming, LIU Yuelong, LIU Gousheng. Study on Synthesis and Mechanism of Poly(AA-co-AM)/Sericite Superabsorbent Composites[J]. New Chem Mater, 2014,12(12):123-129.  

    11. [11]

      WU Zhengang. Synthesis and Property of Super Absorbent Polymer[D]. Xi'an: The Fourth Military Medical University, 2018(in Chinese).

    12. [12]

      HE Ning. Study on Separation and Gel Properties of Natural Low Molecular Weight Gel[D]. Harbin: Harbin Institute of Technology, 2018(in Chinese).

    13. [13]

      Kim J M, Fang J, Eberle A P R. Gel Transition in Adhesive Hard-Sphere Colloidal Dispersions:The Role of Gravitational Effects[J]. Phys Rev Lett, 2013,110(20):208-302.

    14. [14]

      Nishinari K. Some Thoughts on the Definition of a Gel[J]. Prog Colloid Polym Sci, 2009,136:87-94.

    15. [15]

      Daisuke A, Xu D H, Liu W G. Protein Polymer Hydrogels by in situ, Rapid and Reversible Self-Gelation[J]. Biomaterials, 2012,33:5451-5458. doi: 10.1016/j.biomaterials.2012.03.083

    16. [16]

      DING Yi, FANG Youchun. Comperhensive Utilization of Anhui Industrial By-product Gypsum[J]. Mater Rev, 2013,27(12):147-152.  

    17. [17]

      ZHANG Huanhuan, WANG Jie, HUANG Gang. Structure and Properties of the Polyurethane Damping Materials Used in Automobiles[J]. Acta Polym Sin, 2016,10:1447-1454.  

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