[1] XIAO J Z, DENG Q, XIA B. Evolution and prospect of low carbonization of concrete preparation[J]. Journal of Architecture and Civil Engineering, 2022, 39(5): 1-12 (in Chinese).
[2] SHAO J F, YAO S W, ZHANG W B, et al. Research of mass production technology and quality control of superior quality manufactured-sand[J]. Concrete, 2013(5): 144-146+150 (in Chinese).
[3] YANG L, LI H J, XIE Y J, et al. Workability evaluating index of the high-speed railway pile concrete[J]. Concrete, 2012(1): 116-118 (in Chinese).
[4] WANG C, TIAN B, SUN T, et al. Test method for establishing rheological model of fresh cement concrete[J]. Highway, 2014, 59(1): 210-214 (in Chinese).
[5] LU R, ZHU D Y, ZHAN B G. Study of rheological properties of basalt fiber reinforced self-consolidating concrete[J]. Journal of Hefei University of Technology (Natural Science), 2015, 38(9): 1249-1253 (in Chinese).
[6] WANG F S. Unified rheological model of cement concrete[J]. Journal of Wuhan University of Technology, 1984, 6(1): 67-70 (in Chinese).
[7] LI M Y, LIU Y, HAN J G, et al. Influences of sand ratio and paste aggregate ratio on fresh properties of high-fluidity concrete[J]. Journal of the Chinese Ceramic Society, 2020, 48(7): 1107-1113 (in Chinese).
[8] JI T, LI F, ZHUANG Y Z, et al. Effect of specific surface area of manufactured sand on concrete behaviors[J]. Concrete, 2011(2): 80-82 (in Chinese).
[9] GAO R J, WU H, WANG L, et al. Effect and mechanism of machine-made sand stone powder on rheological properties of cement-based materials[J]. Bulletin of the Chinese Ceramic Society, 2019, 38(4): 1080-1085 (in Chinese).
[10] ROUSSEL N. A thixotropy model for fresh fluid concretes: theory, validation and applications[J]. Cement and Concrete Research, 2006, 36(10): 1797-1806.
[11] WALLEVIK J E. Relationship between the Bingham parameters and slump[J]. Cement and Concrete Research, 2006, 36(7): 1214-1221.
[12] WALLEVIK O H, WALLEVIK J E. Rheology as a tool in concrete science: the use of rheographs and workability boxes[J]. Cement and Concrete Research, 2011, 41(12): 1279-1288.
[13] HOCEVAR A, KAVCIC F, BOKAN-BOSILIJKOV V, et al. Rheological parameters of fresh concrete-comparison of rheometers[J]. Journal of the Croatian Association of Civil Engineers, 2013, 65(2): 99-109.
[14] TANG G H, WANG S B, YE P X, et al. Bingham fluid simulation with the incompressible lattice Boltzmann model[J]. Journal of Non-Newtonian Fluid Mechanics, 2011, 166(1/2): 145-151.
[15] GOASZEWSKI J, SZWABOWSKI J. Influence of superplasticizers on rheological behaviour of fresh cement mortars[J]. Cement and Concrete Research, 2004, 34(2): 235-248.
[16] YEN T, TANG C W, CHANG C S, et al. Flow behaviour of high strength high-performance concrete[J]. Cement and Concrete Composites, 1999, 21(5/6): 413-424.
[17] RAHMAN M K, BALUCH M H, MALIK M A. Thixotropic behavior of self compacting concrete with different mineral admixtures[J]. Construction and Building Materials, 2014, 50: 710-717.
[18] LOMBOY G R, WANG X H, WANG K J. Rheological behavior and formwork pressure of SCC, SFSCC, and NC mixtures[J]. Cement and Concrete Composites, 2014, 54: 110-116.
