[1] [1] NIE S, ZHOU J, YANG F, et al. Analysis of theoretical carbon dioxide emissions from cement production: methodology and application［J］. Journal of Cleaner Production, 2022, 334: 130270.

[2] [2] BARCELO L, KLINE J, WALENTA G, et al. Cement and carbon emissions［J］. Materials and Structures, 2014, 47(6): 1055-1065.

[3] [3] ZHANG K C, SHEN P L, YANG L, et al. Development of high-ferrite cement: toward green cement production［J］. Journal of Cleaner Production, 2021, 327: 129487.

[4] [4] HANEIN T, GALVEZ M J L, BANNERMAN M N. Carbon footprint of calcium sulfoaluminate clinker production［J］. Journal of Cleaner Production, 2018, 172: 2278-2287.

[5] [5] CHEN X M. Clinker mineral composition design and performance regulation of high-silic ferro-sulphoaluminate cement［D］.Mianyang: Southwest University of Science and Technology, 2023 (in Chinese).

[6] [6] HUANG Y B, PEI Y, QIAN J S, et al. Bauxite free iron rich calcium sulfoaluminate cement: preparation, hydration and properties［J］. Construction and Building Materials, 2020, 249: 118774.

[7] [7] PEYS A, ISTERI V, YLINIEMI J, et al. Sustainable iron-rich cements: raw material sources and binder types［J］. Cement and Concrete Research, 2022, 157: 106834.

[8] [8] LIAO Y S, YE J, TANG S W. Effect of mixing with seawater and metakaolin on hydration of ferroaluminate cement［J］. Journal of the Chinese Ceramic Society, 2023, 51(11): 2834-2845 (in Chinese).

[9] [9] CHENG Z R, ZHAO J H, LI Z H, et al. Chloride penetration resistance and chloride binding capacity under different application environments of ferroaluminate cement［J］. Journal of Building Engineering, 2023, 78: 107728.

[10] [10] WANG Y M, QI D Y, WANG Z Y. Major innovation in theory and practice of cement chemistry in China［J］. New Building Materials, 2022, 49(5): 33-36 (in Chinese).

[11] [11] JIA L, ZHAO F L, GUO J, et al. Properties and reaction mechanisms of magnesium phosphate cement mixed with ferroaluminate cement［J］. Materials, 2019, 12(16): 2561.

[12] [12] CHENG Z R, ZHAO J H, CUI L Y. Exploration of hydration and durability properties of ferroaluminate cement with compare to Portland cement［J］. Construction and Building Materials, 2022, 319: 126138.

[13] [13] IACOBESCU R I, PONTIKES Y, KOUMPOURI D, et al. Synthesis, characterization and properties of calcium ferroaluminate belite cements produced with electric arc furnace steel slag as raw material［J］. Cement and Concrete Composites, 2013, 44: 1-8.

[14] [14] HAN Y. Ferroaluminate cement concrete crowns nuclear power safety［J］. China Building Materials, 2023, 72(5): 94-95 (in Chinese).

[15] [15] ZHANG X Z, LIU Z C, HE Y J, et al. Hydration characteristics of composite cementitious system driven by chemistry and thermodynamics［J］. Bulletin of the Chinese Ceramic Society, 2021, 40(5): 1462-1469 (in Chinese).

[16] [16] LI Y. Research on hydration characteristics of Portland cement: silica fume composite cementitious material at lower temperatures［D］.Dalian: Dalian University of Technology, 2016 (in Chinese).

[17] [17] WANG Y M, SU M Z. The third series of cement in China［J］. Chin Building Materials Science & Technology, 1993, 2(6): 1-5 (in Chinese).

[18] [18] JOSEPH S, SKIBSTED J, CIZER . A quantitative study of the C3A hydration［J］. Cement and Concrete Research, 2019, 115: 145-159.

[19] [19] PANG X Y, MEYER C. Modeling cement hydration by connecting a nucleation and growth mechanism with a diffusion mechanism. Part II: Portland cement paste hydration［J］. Science and Engineering of Composite Materials, 2016, 23(6): 605-615.

[20] [20] HERTEL T, VAN-DEN B A, ONISEI S, et al. Boosting the use of bauxite residue (red mud) in cement-production of an Fe-rich calciumsulfoaluminate-ferrite clinker and characterisation of the hydration［J］. Cement and Concrete Research, 2021, 145: 106463.

[21] [21] MINARD H, GARRAULT S, REGNAUD L, et al. Mechanisms and parameters controlling the tricalcium aluminate reactivity in the presence of gypsum［J］. Cement and Concrete Research, 2007, 37(10): 1418-1426.

[22] [22] BULLERJAHN F, SCHOLTEN T, SCRIVENER K L, et al. Formation, composition and stability of yeelimite and iron-bearing solid solutions［J］. Cement and Concrete Research, 2020, 131: 106009.

[23] [23] BULLERJAHN F, ZAJAC M, BEN H M, et al. Factors influencing the hydration kinetics of yeelimite;effect of mayenite［J］. Cement and Concrete Research, 2019, 116: 113-119.

[24] [24] IDRISSI M, DIOURI A, DAMIDOT D, et al. Characterisation of iron inclusion during the formation of calcium sulfoaluminate phase［J］. Cement and Concrete Research, 2010, 40(8): 1314-1319.

[25] [25] ABIR F Z, MESNAOUI M, ABOULIATIM Y, et al. Effect of the addition of iron oxide on the microstructure of yeelimite［J］. Cement and Concrete Research, 2022, 151: 106625.

[26] [26] CUESTA A, LVAREZ P G, SANFLIX S G, et al. Hydration mechanisms of two polymorphs of synthetic yeelimite［J］. Cement and Concrete Research, 2014, 63: 127-136.

[27] [27] WANG Y M, SU M Z, ZHANG L. Sulfoaluminate cement［M］. Beijing: Beijing University of Technology Press, 1999 （in Chinese）.

[28] [28] WANG Y M, QI D Y. Iron aluminate cement should be popularized in Arctic construction［J］. China Building Materials, 2022, 71(11): 116-119 (in Chinese).

[29] [29] CHEN D, FENG X J, LONG S Z. The structure and influence of ferric oxide on the properties of 3CaO·3Al2O3·BaSO4［J］. Thermochimica Acta, 1992, 198(2): 313-328.

[30] [30] GARCA M M, SANTACRUZ I, DE-LA T  G, et al. Rheological and hydration characterization of calcium sulfoaluminate cement pastes［J］. Cement and Concrete Composites, 2012, 34(5): 684-691.

[31] [31] HUANG B Y, CUI S P, WANG Y L, et al. Effects of dissolution characteristics of gypsum on hydration process of anhydrous calcium sulfoaluminate［J］. Bulletin of the Chinese Ceramic Society, 2023, 42(5): 1804-1813 (in Chinese).

[32] [32] MASCARIN L, VALENTINI L, ARTIOLI G, et al. Dissolution-precipitation kinetics during C3S hydration: a holographic interferometry study［J］. Cement and Concrete Research, 2023, 173: 107252.

[33] [33] WU Z W, LIAN H Z. High performance concrete［M］. Beijing: China Railway Publishing House, 1999 （in Chinese）.

[34] [34] ZENG Q, LI K F, FEN-CHONG T, et al. Pore structure characterization of cement pastes blended with high-volume fly-ash［J］. Cement and Concrete Research, 2012, 42(1): 194-204.