Microstructure and properties of coal-fly-ash-based foam geopolymer

Wang Dongmin; Cui Yong; Li Duanle; Shao Ningning; Zhao Jihui; Rui Yafeng

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Article Navigation > Journal of Mining Science and Technology > 2017 > 2(2): 175-182

Wang Dongmin, Cui Yong, Li Duanle, Shao Ningning, Zhao Jihui, Rui Yafeng. Microstructure and properties of coal-fly-ash-based foam geopolymer[J]. Journal of Mining Science and Technology, 2017, 2(2): 175-182.

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Microstructure and properties of coal-fly-ash-based foam geopolymer

School of Chemical and Environmental Engineering,China University of Mining and Technology,Beijing 100083,China

Received Date: 2016-08-26
Publish Date: 2017-04-29

Abstract

Abstract

Large amount of circulating fluidized bed combustion fly ash (CFA) were generated in power plants.In this paper,foam geopolymer material was prepared using CFA,water glass (WG) and sodium hydroxide (NaOH) as raw material and hydrogen peroxide as foaming agent.By adopting (wt) 3%-8% hydrogen peroxide,the properties of foaming multiple,pore size distribution,apparent density,macro porosity and compressive strength were tested.The balance of foaming driving force and paste resistance and the influence of macro pore structure on compressive strength were studied.The results showed that the balance of the foaming driving force and paste resistance was content of H₂O₂ (wt) of 5%； and the foaming multiple,apparent density,macro porosity and compressive strength were 4.2,255 kg/m³,81.7% and 0.65 MPa respectively when the H₂O₂ foaming agent(wt) was 5%.The different pore size distribution had different degree of the decrease on compressive strength,the gray correlation degree between compressive strength of samples and pore diameter range of 10-20 μm was the greatest,that was,the range of pore size was 10-20 μm as the key factor,and the effect on compressive strength of samples was the largest.
- geopolymer,
- foam material,
- gray correlation analysis,
- pore structure,
- compressive strength

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References

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Microstructure and properties of coal-fly-ash-based foam geopolymer

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