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    Journals >Bulletin of the Chinese Ceramic Society >Volume 41 >Issue 2 >Page 582 > Article
    • Bulletin of the Chinese Ceramic Society
    • Vol. 41, Issue 2, 582 (2022)
    Preparation and Properties of Sodium Silicate-Na2CO3 Activated Magnesium-Rich Nickel Slag-Fly Ash Based Geopolymer
    LIU Yun1, FENG Chunfu1, LIU Yang1, YANG Shengwei1, and WANG Mitang1、2
    Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
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    DOI: Cite this Article
    LIU Yun, FENG Chunfu, LIU Yang, YANG Shengwei, WANG Mitang. Preparation and Properties of Sodium Silicate-Na2CO3 Activated Magnesium-Rich Nickel Slag-Fly Ash Based Geopolymer[J]. Bulletin of the Chinese Ceramic Society, 2022, 41(2): 582 Copy Citation Text show less
    References

    [1] DAVIDOVITS J. Geopolymers and geopolymeric materials[J]. Journal of Thermal Analysis, 1989, 35(2): 429-441.

    [2] SOFI M, VAN DEVENTER J S J, MENDIS P A, et al. Engineering properties of inorganic polymer concretes (IPCs)[J]. Cement and Concrete Research, 2007, 37(2): 251-257.

    [3] RASHAD A M, ZEEDAN S R, HASSAN A A. Influence of the activator concentration of sodium silicate on the thermal properties of alkali-activated slag pastes[J]. Construction and Building Materials, 2016, 102: 811-820.

    [4] BAKHAREV T. Resistance of geopolymer materials to acid attack[J]. Cement and Concrete Research, 2005, 35(4): 658-670.

    [5] BAKHAREV T. Durability of geopolymer materials in sodium and magnesium sulfate solutions[J]. Cement and Concrete Research, 2005, 35(6): 1233-1246.

    [10] DUXSON P, PROVIS J L, LUKEY G C, et al. Understanding the relationship between geopolymer composition, microstructure and mechanical properties[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2005, 269(1/2/3): 47-58.

    [12] PALOMO A, GRUTZECK M W, BLANCO M T. Alkali-activated fly ashes: a cement for the future[J]. Cement and Concrete Research, 1999, 29(8): 1323-1329.

    [13] ZHANG Z, ZHU Y C, YANG T, et al. Conversion of local industrial wastes into greener cement through geopolymer technology: a case study of high-magnesium nickel slag[J]. Journal of Cleaner Production, 2017, 141: 463-471.

    [14] YANG T, ZHANG Z H, ZHU H J, et al. Re-examining the suitability of high magnesium nickel slag as precursors for alkali-activated materials[J]. Construction and Building Materials, 2019, 213: 109-120.

    [15] YANG T, WU Q S, ZHU H J, et al. Geopolymer with improved thermal stability by incorporating high-magnesium nickel slag[J]. Construction and Building Materials, 2017, 155: 475-484.

    [16] WU Q S, WANG S X, YANG T, et al. Effect of high-magnesium nickel slag on hydration characteristics of Portland cement[J]. Journal of Materials in Civil Engineering, 2019, 31(5): 04019051.

    [18] LV Q F, WANG Z S, GU L Y, et al. Effect of sodium sulfate on strength and microstructure of alkali-activated fly ash based geopolymer[J]. Journal of Central South University, 2020, 27(6): 1691-1702.

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    LIU Yun, FENG Chunfu, LIU Yang, YANG Shengwei, WANG Mitang. Preparation and Properties of Sodium Silicate-Na2CO3 Activated Magnesium-Rich Nickel Slag-Fly Ash Based Geopolymer[J]. Bulletin of the Chinese Ceramic Society, 2022, 41(2): 582
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