摘 要地质聚合物是一种新型胶凝材料,因其具有优异的性能,近年来引起了国内外研究学者的广泛关注。本文利用偏高岭土和粉煤灰为原料,通过碱激发制备地质聚合物。利用正交设计研究了偏高岭土的细度、粉煤灰的掺量和碱激发剂的模数对地质聚合物力学性能的影响,并研究了其工作性能和凝结性能。研究表明:(1)高岭土在 850℃下煅烧并保温 2h 制备具有活性的偏高岭土,偏高岭土在常温下由氢氧化钠和水玻璃溶液制成的碱激发剂激发,可以制备地质聚合物。(2)偏高岭土地质聚合物的早期强度发展很快,通过掺入粉煤灰调控其反应进程,改善其粘聚性,偏高岭土-粉煤灰基地质聚合物浆体的流动性随着粉煤灰掺量的增加而变好。(3)通过正交实验得出影响偏高岭土—粉煤灰基地质聚合物力学性能的大小因素分别为偏高岭土细度、粉煤灰掺量和水玻璃模数。最佳配方为:偏高岭土为最细,粉煤灰掺量为 25%,水玻璃模数为 1.3;(4)同一粉煤灰含量的混合原料在采用不同模数的水玻璃激发时,随水玻璃模数的增大,凝结时间增长。关键词:地质聚合物;偏高岭土;粉煤灰;工作性能;凝结时间AbstractGeopolymer is a new gelled material which attracted lots of attentions, both at home and abroad in recent years, for its excellent properties. In this thesis, geopolymer has been synthesized from raw materials what are metakaolinite and fly ash under activation of NaOH solution and sodium silicate solution. We discuss that how fineness of the metakaolinete, content of fly ash and modulus of sodium silicate affect the mechanical properties of Flyash-Metakaolinite based geopolymer by using orthogonal experimental design.Meanwhile ,the working performance and setting time of geoploymer are studied.Research shows: (1) Flyash-Metakaolinite based geopolymer has been synthesized at room temperature from metakaolinite under activation of NaOH solution and sodium silicate solution.We get metakaolinite with high activity from kaolinite which has been calcined at 850℃,and holds 2 hours.(2) Metakaolinite-based geoploymer has good performance in th...
