GEOPOLYMERS, FLY ASH REACTIVITY AND MECHANICAL ACTIVATION

机译：地质聚合物，飞灰反应性和机械激活

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The foucs this paper is on the reactivity of fly ash in relation to its geopolymerisation, that is structure and properies of geopolymer. A comparision of the mechanically induced reactivity by vibration and attrition milling and glass content induced reactivity obtained through size classification in a high speed air classifier has been made. It has been shown that for the fly ash of nearly same size (~ 5 nm), mechanical activation results in higher reactivity or geopoymerisation rate as compared to the air classified samples. Reactvity can also be altered by mixing raw fly ash with processed fly ash. Much wider variation in the reactivity is possible by mixing raw fly ash with mechanically activated fly ash than with classified fly ash. Higher reactivity of the mechanically activated fly ash results higher strength vis-a-vis raw and air classified fly ash.

机译：FOOCS本文采用粉煤灰与其地质聚合物相关的反应性，即地质聚合物的结构和适当。已经进行了通过振动和磨削铣削的机械诱导的反应性和通过在高速空气分级器中的尺寸分类获得的玻璃含量诱导的反应性的比较。已经表明，对于几个尺寸（〜5nm）的粉煤灰，与空气分类样品相比，机械激活导致反应性更高的反应性或Geopoyerisation率。通过将原料粉煤灰与加工粉煤灰混合来改变反应。通过将原料粉煤灰与机械活化的粉煤灰混合而不是分类的粉煤灰，可以更广泛的反应性变化。机械活化粉煤灰的更高反应性结果更高的强度Vis-Vis原料和空气分类粉煤灰。

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《International Conference on Mechanochemistry and Mechanical Alloying》|2011年||共4页
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作者
Sanjay Kumar; Rakesh Kumar; S.P. Mehrotra;
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中图分类 TF704-532;
关键词
Fly ash; Glassy phase; Mechanical activation; Reactivity; Geopolymers;

机译：飞灰;玻璃相;机械激活;反应性;盖聚物;

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GEOPOLYMERS, FLY ASH REACTIVITY AND MECHANICAL ACTIVATION

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