[2] [2] LV L Y, LUO S T, AVIJA B, et al. Effect of particle size distribution on the pre-hydration, hydration kinetics, and mechanical properties of calcium sulfoaluminate cement[J]. Construction and Building Materials, 2023, 398: 132497.

[3] [3] GARTNER E. Industrially interesting approaches to “low-CO2” cements[J]. Cement and Concrete Research, 2004, 34(9): 1489-1498.

[5] [5] HU C L, HOU D S, LI Z J. Micro-mechanical properties of calcium sulfoaluminate cement and the correlation with microstructures[J]. Cement and Concrete Composites, 2017, 80: 10-16.

[6] [6] HARGIS C W, LOTHENBACH B, MLLER C J, et al. Carbonation of calcium sulfoaluminate mortars[J]. Cement and Concrete Composites, 2017, 80: 123-134.

[8] [8] WANG L, MA H, LI Z J, et al. Cementitious composites blending with high belite sulfoaluminate and medium-heat Portland cements for largescale 3D printing[J]. Additive Manufacturing, 2021, 46: 102189.

[9] [9] MOELICH G M, KRUGER P J, COMBRINCK R. Mitigating early age cracking in 3D printed concrete using fibres, superabsorbent polymers, shrinkage reducing admixtures, B-CSA cement and curing measures[J]. Cement and Concrete Research, 2022, 159: 106862.

[12] [12] GLASSER F P, ZHANG L. High-performance cement matrices based on calcium sulfoaluminate-belite compositions[J]. Cement and Concrete Research, 2001, 31(12): 1881-1886.

[15] [15] LIU F, LU X H, YANG W, et al. Optimizations of inhibitors compounding and applied conditions in simulated circulating cooling water system[J]. Desalination, 2013, 313: 18-27.

[16] [16] SHEN L, WANG F Q, TIAN L, et al. High-performance thin-film composite membranes with surface functionalization by organic phosphonic acids[J]. Journal of Membrane Science, 2018, 563: 284-297.

[18] [18] GU P, PAMACHANDRAN V S, BEAUNDOIN J J, et al. Electrichemical behavior of Portland cement pastes containing phosphonates[J]. Advanced Cement Based Materials, 1995, 2(5): 182-188.

[20] [20] RAMACHANDRAN V S, LOWERY M S, WISE T, et al. The role of phosphonates in the hydration of Portland cement[J]. Materials and Structures, 1993, 26(7): 425-432.

[23] [23] SU T, KONG X M, TIAN H W, et al. Effects of comb-like PCE and linear copolymers on workability and early hydration of a calcium sulfoaluminate belite cement[J]. Cement and Concrete Research, 2019, 123: 105801.

[25] [25] WEI J J, FANG C L, ZHOU B, et al. Effect of organic phosphonate types on performance of alkali-activated slag-based materials and its mechanism[J]. Cement and Concrete Composites, 2024, 151: 105597.

[26] [26] LONG W J, WU Z R, WEI J J, et al. The enhanced lead (Ⅱ) ions stabilization of alkali-activated salg-based materials with appropriate addition of phosphonate[J]. Materials Report, 2023, 37: 113-120.