Fabrication and swelling properties of a novel superabsorbent composite derived from waste coal gangue

Yan Zhang, Jianxiong Wei, Xing Zhang, Pingqiang Gao
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Abstract

In this work, novel superabsorbent composites made of starch-grafted-polyacrylic acid/coal gangue were prepared via aqueous solution polymerization. The starch-g-polyacrylic acid/coal gangue (St-g-PAA/CG) composite with 10 wt.% CG showed the maximum water absorbency in distilled water (560 g·g−1) and a 0.9 wt.% NaCl solution (102 g·g−1). Moreover, this superabsorbent composite exhibited fine thermal stability and its swelling behavior was dependent on pH. In general, the swelling kinetics of the superabsorbent composites fitted with the Scott’s kinetic model. These composites not only showed excellent water absorption reversibility after five absorption/drying cycles, but also exhibited considerable environmental responsiveness after the swelling medium was changed from distilled water to the 0.9 wt.% NaCl solution. Based on these results, the prepared superabsorbent composites can be applied in several fields such as horticulture, agriculture, health care, and controlled drug delivery, while ensuring comprehensive utilization of solid wastes.
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新型废煤矸石高吸水性复合材料的制备及膨胀性能研究
采用水溶液聚合法制备了淀粉接枝聚丙烯酸/煤矸石的新型高吸水性复合材料。淀粉-g-聚丙烯酸/煤矸石(St-g-PAA/CG)复合材料在蒸馏水(560 g·g−1)和0.9 wt.% NaCl溶液(102 g·g−1)中吸水率最高。此外,该高吸水性复合材料具有良好的热稳定性,其膨胀行为与ph值有关。总体而言,高吸水性复合材料的膨胀动力学符合Scott的动力学模型。这些复合材料不仅在5次吸收/干燥循环后表现出优异的吸水可逆性,而且在膨胀介质由蒸馏水变为0.9 wt.% NaCl溶液后表现出相当大的环境响应性。在保证固体废物综合利用的同时,所制备的高吸水性复合材料可应用于园艺、农业、卫生保健和药物管制等多个领域。
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