[1] [1] XU Z Y,LI H,ZHANG D W,et al. Research progress of cementitious materials and related properties for building 3D printing［J］. Materials Reports,2023,37(12): 97-110 (in Chinese).

[2] [2] ZHANG C,DENG Z C,WANG Z B,et al. Effects of fibers on printing performance and mechanical properties of 3D printing concrete［J］. Bulletin of the Chinese Ceramic Society,2021,40(6): 1870-1878+1888 (in Chinese).

[3] [3] CHEN Z Y. Upgrading of a low-grade potassium feldspar ore in southern Jiangxi and its application in the synthesis of geopolymer［D］.Ganzhou: Jiangxi University of Science and Technology,2018: 4-12 (in Chinese).

[4] [4] BIAN L B,TAO Z,ZHAO Y G,et al. The simulation Na+distribution law of alkali activated cementitious materials hardened paste［J］. Materials Reports,2024,38(3): 120-125 (in Chinese).

[5] [5] ZHU Y M,ZHANG Y,JIANG Z W. Effect of hydroxypropyl methylcellulose ether on properties of 3D printing mortar［J］. Journal of Building Materials,2021,24(6): 1123-1130 (in Chinese).

[6] [6] KAUSHIK S,SONEBI M,AMATO G,et al. Optimisation of mix proportion of 3D printable mortar based on rheological properties and material strength using factorial design of experiment［J］. Materials,2023,16(4): 1748.

[7] [7] LE T T,AUSTIN S A,LIM S,et al. Mix design and fresh properties for high-performance printing concrete［J］. Materials and Structures,2012,45(8): 1221-1232.

[8] [8] LUO F M,CUI P,TANG W,et al. Influences of engineering spoil on the properties and microstructure of 3D printable magnesium cement［J］. Construction and Building Materials,2023,404: 133150.

[9] [9] JIANG Q,WU S,LIU Q,et al. Basic mix ratio test and corresponding quality evaluation for cement-based 3D printing materials［J］. Rock and Soil Mechanics,2023,44(5): 1245-1259 (in Chinese).

[10] [10] DU X F,LI M,SUN C J. Effect of polycarboxylate superplasticizer content on 3D printing mortar performance［J］. China Building Materials Science & Technology,2023,32(3): 30-33 (in Chinese).

[11] [11] JIAO Z K,WANG D M,WANG Q B,et al. Influencing factors and testing methods of printability of 3D printing concrete materials［J］. Bulletin of the Chinese Ceramic Society,2021,40(6): 1821-1831 (in Chinese).

[12] [12] PANDA B,RUAN S Q,UNLUER C,et al. Improving the 3D printability of high volume fly ash mixtures via the use of nano attapulgite clay［J］. Composites Part B: Engineering,2019,165: 75-83.

[13] [13] YANG Q R,ZHAO Z Z,LI J,et al. Rheological properties and printability of 3D printing mortar and their relationship［J］. Concrete,2021(1): 118-121 (in Chinese).

[14] [14] TANG J Y,XI Y B,GAO D Y,et al. Review on printability of 3D printed concrete［J］. China Concrete and Cement Products,2022(12): 18-23 (in Chinese).

[15] [15] WANG L,LI D L,YE K H,et al. Quantification,optimization and standardization of 3D printability of cementitious composites［J］. Bulletin of the Chinese Ceramic Society,2021,40(6): 1814-1820 (in Chinese).

[16] [16] XIAO J Z,HAO L C,CAO W Z,et al. Influence of recycled powder derived from waste concrete on mechanical and thermal properties of foam concrete［J］. Journal of Building Engineering,2022,61: 105203.

[17] [17] YAHIA A,KHAYAT K H. Analytical models for estimating yield stress of high-performance pseudoplastic grout［J］. Cement and Concrete Research,2001,31(5): 731-738.

[18] [18] KHAYAT K H,YAHIA A. Effect of welan gum-high-range water reducer combinations on rheology of cement grout［J］. ACI Materials Journal,1997,94(5): 365-372.

[19] [19] PANDA B,SINGH G B,UNLUER C,et al. Synthesis and characterization of one-part geopolymers for extrusion based 3D concrete printing［J］. Journal of Cleaner Production,2019,220: 610-619.

[20] [20] ZHANG Y,ZHU Y M,REN Q,et al. Effects of bentonite on printability of 3D printing mortar［J］. Journal of the Chinese Ceramic Society,2022,50(2): 420-428 (in Chinese).

[21] [21] WANG D M,LI X L,LIU Z. Preparation and working performance of fly ash/phosphorus slag powder modified cement-based 3D printing materials［J］. Bulletin of the Chinese Ceramic Society,2020,39(8): 2372-2378+2392 (in Chinese).

[22] [22] JIN Y,XU J B,SUN D T,et al. Effect of nano-silica on structural deformation,rheological and mechanical properties of 3D printed white Portland cement-based materials［J］. Bulletin of the Chinese Ceramic Society,2021,40(6): 1855-1862 (in Chinese).

[23] [23] HOU Z Y. Study on preparation and properties of 3D printed fiber reinforced concrete［D］.Nanjing: Southeast University,2020: 44-68(in Chinese).

[24] [24] ZHANG C,DENG Z C,MA L,et al. Research progress and application of 3D printing concrete［J］. Bulletin of the Chinese Ceramic Society,2021,40(6): 1769-1795 (in Chinese).

[25] [25] PANDA B,UNLUER C,TAN M J. Extrusion and rheology characterization of geopolymer nanocomposites used in 3D printing［J］. Composites Part B: Engineering,2019,176: 107290.

[26] [26] XIA Y X. Preparation and properties of alkali-activated cementitious materials for 3D printing［D］.Chongqing: Chongqing University,2019: 28-71 (in Chinese).