发展地聚合物结构,优先利用造纸工业的废料

Rozineide A.A. Boca Santa, Giorgio L. Miraglia, Cíntia Soares, Humberto G. Riella
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引用次数: 2

摘要

利用废纸制浆过程中产生的偏高岭土合成了地聚合物。废物主要由纤维素、碳酸钙和高岭土组成。对其进行了化学和物理分离,得到偏高岭土。纤维素通过在450°C下燃烧来消除。通过与1.8 M HCl溶液反应去除CaCO3。纯化后的高岭土经850℃热处理2 h,脱羟基转化为偏高岭土。制备地聚合物以评估所得偏高岭土的性能。采用由8 M和12 M的KOH和NaOH组成的四种溶液,分别以2:1的固定比例与Na2SiO3结合,进行铝硅酸盐碱性活化。结果表明,从废水处理中获得的偏高岭土是一种优质的偏高岭土,可用于地聚合物的开发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of geopolymeric structures to prioritize the use of waste from paper industries

Geopolymers were synthesized using metakaolin obtained from the waste of white paper pulping process. The waste is mainly composed by cellulose, calcium carbonate and kaolin. Chemical and physical procedures were conducted aiming to separate its components and obtain metakaolin. The cellulose was eliminated by burning the waste at 450 °C. The CaCO3 was removed by reacting the material with a 1.8 M HCl solution. The purified kaolin went through heat treatment 850 °C for 2 h, in order to be transformed into metakaolin by dehydroxylation. Geopolymers were produced to assess the performance of the resulting metakaolin. The aluminosilicate alkaline activation was executed using four solutions - composed of 8 M and 12 M of KOH and NaOH, each combined with Na2SiO3 in a 2:1 fixed ratio. The results pointed out that the metakaolin obtained from the waste treatment was a quality one, enabling it to be applied in the development of geopolymers.

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