Journal of the Chinese Ceramic Society, Volume. 50, Issue 12, 3323(2022)

Research Progress on Conversion Process and Regulation of Hydrates of Calcium Aluminate Cement

XIA Zhongfeng*... WANG Zhoufu, LIU Hao, MA Yan and WANG Xitang |Show fewer author(s)
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    References(57)

    [1] [1] LOPEZ A H, CALVO J L G, OLMO J G, et al. Microstructural evolution of calcium aluminate cements hydration with silica fume and fly ash additions by scanning electron microscopy, and mid and near-infrared spectroscopy[J]. J Am Ceram Soc, 2010, 91(4): 1258-1265.

    [2] [2] ZHOU Xian, ZHOU Min, WU Xian, et al. Studies of phase relations and AFm solid solution formations in the system CaO-Al2O3-CaCl2- CaCrO4-H2O[J]. Appl Geochem, 2017, 80: 49-57.

    [3] [3] PARR C, SIMONIN F, TOUZO B, et al. The impact of calcium aluminate cement hydration upon the properties of refractory castables[J]. J Tech Asso Refract, 2005, 25(2): 78-88.

    [4] [4] SARKAR R. Binders for refractory castables: an overview[J]. Interceram: Int Ceram Rev, 2020, 69(4/5): 44-53.

    [5] [5] LEE W E, VIEIRA W, ZHANG S, et al. Castable refractory concretes[J]. Int Mater Rev, 2001, 46(3): 145-167.

    [6] [6] LOTHENBACH B, PELLETIER-CHAIGNAT L, WINNEFELD F. Stability in the system CaO-Al2O3-H2O[J]. Cem Concr Res, 2012, 42: 1621-1634.

    [7] [7] PACEWSKA B, NOWACKA M, ANTONOVI. V, et al. Investigation of early hydration of high aluminate cement-based binder at different ambient temperatures[J]. J Therm Anal Calorim, 2012, 109(2):717-726.

    [8] [8] ANTONOVI. V, KERIEN. J, BORIS R, et al. The effect of temperature on the formation of the hydrated calcium aluminate cement structure[J]. Procedia Eng, 2013, 57(1): 99-106.

    [9] [9] CHOTARD T J, BONCOEUR-MARTEL M P, SMITH A, et al. Application of X-ray computed tomography to characterise the early hydration of calcium aluminate cement[J]. Cem Concr Compos, 2003, 25(1): 145-152.

    [10] [10] SHIRANI S, CUESTA A, TORRE A G, et al. Calcium aluminate cement conversion analysed by ptychographic nanotomography[J]. Cem Concr Res, 2020, 137: 106201.

    [11] [11] RASHID S, BARNES P, TURRILLAS X. The rapid conversion of calcium aluminate cement hydrates, as revealed by synchrotron energy-dispersive diffraction[J]. Adv Cem Res, 1992, 4(14): 61-67.

    [12] [12] RASHID S, BARNES P, BENSTED J, et al. Conversion of calcium aluminate cement hydrates re-examined with synchrotron energy-dispersive diffraction[J]. J Mater Sci Lett, 1994, 13(17): 1232-1234.

    [13] [13] RASHID S, TURRILLAS X. Hydration kinetics of CaAl2O4 using synchrotron energy-dispersive diffraction[J]. Thermochim Acta, 1997, 302(1/2): 25-34.

    [14] [14] JENSEN T R, CHRISTENSEN A N, HANSON J C. Hydrothermal transformation of the calcium aluminum oxide hydrates CaAl2O4·10H2O and Ca2Al2O5·8H2O to Ca3Al2(OH)12 investigated by in situ synchrotron X-ray powder diffraction[J]. Cem Concr Res, 2005, 35(12): 2300-2309.

    [15] [15] GENG Guoqing, LI Jiaqi, YU Young-Sang, et al. Nanometer-resolved spectroscopic study reveals the conversion mechanism of CaO·Al2O3·10H2O to 2CaO·Al2O3·8H2O and 3CaO·Al2O3·6H2O at an elevated temperature[J]. Cryst Growth Des, 2017, 17: 4246-4253.

    [16] [16] GENG Guoqing, LI Jiaqi, ZHOU Yang, et al. A high-pressure X-ray diffraction study of the crystalline phases in calcium aluminate cement paste[J]. Cem Concr Res, 2018, 108: 38-45.

    [18] [18] ZHANG Yang, YE Guotian, GU Wenjing, et al. Conversion of calcium aluminate cement hydrates at 60 ℃ with and without water[J]. J Am Ceram Soc, 2018, 101(7): 2712-2717.

    [19] [19] PARK S M, JANG J G, SON H M, et al. Stable conversion of metastable hydrates in calcium aluminate cement by early carbonation curing[J]. J CO2 Util, 2017, 21: 224-226.

    [20] [20] SCRIVENER K L, CABIRON J L, LETOURNEUX R. High-performance concretes from calcium aluminate cements[J]. Cem Concr Res, 1999, 29(8): 1215-1223.

    [21] [21] SON H M, PARK S M, JANG J G, et al. Effect of nano-silica on hydration and conversion of calcium aluminate cement[J]. Constr Build Mater, 2018, 169: 819-825.

    [22] [22] FU Yan, DING Jian, BEAUDOIN J J. Zeolite-based additives for high alumina cement products[J]. Adv Cem Based Mater, 1996, 3(1): 37-42.

    [23] [23] JASON H I, KAREN L S, HERVE F, et al. Calcium aluminate cements[M]//PETER C H, MARTIN L, 5th ed. Butterworth-Heinemann, UK, Lea’s chemistry of cement and concrete, 2019: 537-584.

    [24] [24] COLLEPARDI M, MONOSI S, PICCIOLI P. The influence of pozzolanic materials on the mechanical stability of aluminous cement[J]. Cem Concr Res, 1995, 25(5): 961-968.

    [25] [25] CARDOSO F A, INNOCENTINI M, AKIYOSHI M M, et al. Effect of curing time on the properties of CAC bonded refractory castables[J]. J Eur Ceram Soc, 2004, 24(7): 2073-2078.

    [26] [26] KOEHLER A, NEUBAUER J, GOETZ-NEUNHOEFFER F. Phase changes during the drying of calcium aluminate cement bond castables-the influence of curing and drying conditions[J]. Cem, 2022,7: 100020.

    [27] [27] UKRAINCZYK N, MATUSINOVIC T, KURAJICA S, et al. Dehydration of a layered double hydroxide-C2AH8[J]. Thermochim Acta, 2007, 464: 7-15.

    [28] [28] ZAJAC M, BREMSETH S K, WHITEHEAD M, et al. Effect of CaMg(CO3)2 on hydrate assemblages and mechanical properties of hydrated cement pastes at 40 ℃ and 60 ℃[J]. Cem Concr Res, 2014,65: 21-29.

    [29] [29] SHANG Xuejun, YE Guotian, ZHANG Yaqian, et al. Effect of micro-sized alumina powder on the hydration products of calcium aluminate cement at 40 ℃[J]. Ceram Int, 2016, 42: 14391-14394.

    [30] [30] GUO Chunyu, WANG Enhui, HOU Xinmei, et al. Characterization and mechanism of early hydration of calcium aluminate cement with anatase-TiO2 nanospheres additive[J]. Constr Build Mater, 2020, 261(1): 119922.

    [31] [31] SENGüL K, ERDOGAN S T. Influence of ground perlite on the hydration and strength development of calcium aluminate cement mortars[J]. Constr Build Mater, 2021, 266: 120943.

    [33] [33] PACEWSKA B, NOWACKA M, ANTONOVI V, et al. Investigation of early hydration of high aluminate cement-based binder at different ambient temperatures[J]. J Therm Anal Calorim, 2012, 109(2): 717-726.

    [34] [34] WU Kai, HAN Hao, R..LER C, et al. Rice hush ash as supplementary cementitious material for calcium aluminate cement.Effects on strength and hydration[J]. Constr Build Mater, 2021, 302: 124198.

    [35] [35] DING Jian, FU Yan, BEAUDOIN J J. Study of hydration mechanisms in the high alumina cement-sodium silicate system[J]. Cem Concr Res, 1996, 26(5): 799-804.

    [36] [36] ANA FERNáNDEZ-JIMéNEZ, TOMáS VáZQUEZ, PALOMO A. Effect of sodium silicate on calcium aluminate cement hydration in highly alkaline media: A microstructural characterization[J]. J Am Ceram Soc, 2011, 94(4): 1297-1303.

    [37] [37] RIVAS MERCURY M J, TURRILLAS T, AZA A H, et al. Calcium aluminates hydration in presence of amorphous SiO2 at temperatures below 90 ℃[J]. J Solid State Chem, 2006, 179: 2988-2997.

    [38] [38] GOERGENS J, MANNINGER T, GOETZ-NEUNHOEFFER F. In-situ XRD study of the temperature-dependent early hydration of calcium aluminate cement in a mix with calcite[J]. Cem Concr Res, 2020, 136: 106160.

    [40] [40] ADAMS M P, IDEKER J H. Influence of aggregate type on conversion and strength in calcium aluminate cement concrete[J]. Cem Concr Res, 2017, 100: 284-296.

    [42] [42] RAMBO D A S, UKRAINCZYK N, SILVA F D A, et al. Calcium aluminate mortars at high temperatures: Overcoming adverse conversion effects using clinker aggregates[J]. Cem Concr Compos, 2019, 96: 212-224.

    [43] [43] SAO.T G L, LOTHENBACH B, TAQUET P, et al. Hydration of calcium aluminate cement blended with anhydrite[J]. Adv Cem Res, 2018, 30(1): 24-36.

    [44] [44] LI Haoxin, XU Chao, LI Lin, et al. Insight into the influences of β-hemihydrate and dihydrate gypsum on the properties and phase conversion of white calcium aluminate cement[J]. Constr Build Mater, 2020, 263: 120106.

    [45] [45] SON H M, PARK S, KIM H Y, et al. Effect of CaSO4 on hydration and phase conversion of calcium aluminate cement[J]. Constr Build Mater, 2019, 224(10): 40-47.

    [46] [46] YUM W S, SUH J I, KIM D H, et al. Prevention of potential strength degradation due to conversion of C2AH8 formed in CaO-Ca(HCOO)2-activated GGBFS binder using CaSO4[J]. Constr Build Mater, 2020, 253: 119186.

    [47] [47] GOSSELIN C, GALLUCCI E, SCRIVENER K. Influence of self heating and Li2SO4 addition on the microstructural development of calcium aluminate cement[J]. Cem Concr Res, 2010, 40(10): 1555-1570.

    [48] [48] MOSTAFA N Y, ZAKI Z I, ELKADER O H A. Chemical activation of calcium aluminate cement composites cured at elevated temperature[J]. Cem Concr Compos, 2012, 34(10): 1187-1193.

    [49] [49] LUZ A P, PANDOLFELLI V C. CaCO3 addition effect on the hydration and mechanical strength evolution of calcium aluminate cement for endodontic applications[J]. Ceram Int, 2012, 38(2): 1417-1425.

    [50] [50] NIZIURSKA M, MALOLEPSZY J, MALATA G. The influence of lithium carbonate on phase composition of calcium aluminate cement paste[J]. Procedia Eng, 2015, 108: 363-370.

    [51] [51] OLIVEIRA I R, ORTEGA F S, PANDOLFELLI V C. Hydration of CAC cement in a castable refractory matrix containing processing additives[J]. Ceram Int, 2009, 35(4): 1545-1552.

    [52] [52] PUERTA-FALLA G, BALONIS M, SAOUT G L, et al. The influence of slightly and highly soluble carbonate salts on phase relations in hydrated calcium aluminate cements[J]. J Mater Sci, 2016, 51(12): 6062-6074.

    [53] [53] FALZONE G, BALONIS M, SANT G. X-AFm stabilization as a mechanism of bypassing conversion phenomena in calcium aluminate cements[J]. Cem Concr Res, 2015, 72: 54-68.

    [55] [55] DURAN A, SIRERA R, PéREZ-NICOLáS M, et al. Study of the early hydration of calcium aluminates in the presence of different metallic salts[J]. Cem Concr Res, 2016, 81: 1-15.

    [57] [57] XU Weiting, DAI Jian-guo, DING Zhu, et al. Polyphosphate-modified calcium aluminate cement under normal and elevated temperatures: Phase evolution, microstructure, and mechanical properties[J]. Ceram Int, 2017, 43(17): 15525-15536.

    [58] [58] MANNINGER T, JANSEN D, NEUBAUER J, et al. The retarding effect of phosphoric acid during CAC hydration[J]. Cem Concr Res, 2019, 122: 83-92.

    [59] [59] HUELLER F, JUERGEN N, KAESSNER S, et al. Hydration of calcium aluminates at 60 ℃-Development paths of C2AHx in dependence on the content of free water[J]. J Am Ceram Soc, 2019, 102(7): 4376-4387.

    [60] [60] NILFOROUSHAN, REZA M, TALEBIAAN, et al. The hydration products of a refractory calcium aluminate cement at low temperatures[J]. Iran J Chem Chem Eng, 2007, 26(2): 71-76.

    [61] [61] LI Na, WANG Xiaoyu, MU Yuandong, et al. Mechanical property and phase evolution of the hydrates of CAC-bonded alumina castables during drying at 110 ℃[J]. Constr Build Mater, 2021, 266: 120962.

    [62] [62] PACEWSKA B, NOWACKA M.Studies of conversion progress of calcium aluminate cement hydrates by thermal analysis method[J]. J Therm Anal Calorim, 2014, 117(2): 653-660.

    [63] [63] FERNáNDEZ-CARRASCO L, RIUS J, MIRAVITLLES C. Supercritical carbonation of calcium aluminate cement[J]. Cem Concr Res, 2008, 38: 1033-1037.

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    XIA Zhongfeng, WANG Zhoufu, LIU Hao, MA Yan, WANG Xitang. Research Progress on Conversion Process and Regulation of Hydrates of Calcium Aluminate Cement[J]. Journal of the Chinese Ceramic Society, 2022, 50(12): 3323

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    Paper Information

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    Received: Apr. 8, 2022

    Accepted: --

    Published Online: Jan. 20, 2023

    The Author Email: Zhongfeng XIA (xiazhongfeng@wust.edu.cn)

    DOI:10.14062/j.issn.0454-5648.20220267

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