[1] MECHTCHERINE V, BOS F P, PERROT A, et al. Extrusion-based additive manufacturing with cement-based materials-Production steps, processes, and their underlying physics: a review[J]. Cement and Concrete Research, 2020, 132: 106037. [2] 王香港,王 申,贾鲁涛,等.3D打印混凝土技术在新冠肺炎防疫方舱中的应用[J].混凝土与水泥制品,2020(4):1-4+13. WANG X G, WANG S, JIA L T, et al. Application of 3D printing technology in epidemic prevention cabins during the outbreak of COVID-19[J]. China Concrete and Cement Products, 2020(4): 1-4+13 (in Chinese). [3] ZHANG Y, ZHANG Y S, SHE W, et al. Rheological and harden properties of the high-thixotropy 3D printing concrete[J]. Construction and Building Materials, 2019, 201: 278-285. [4] LU B, QIAN Y, LI M Y, et al. Designing spray-based 3D printable cementitious materials with fly ash cenosphere and air entraining agent[J]. Construction and Building Materials, 2019, 211: 1073-1084. [5] NEUDECKER S, BRUNS C, GERBERS R, et al. A new robotic spray technology for generative manufacturing of complex concrete structures without formwork[J]. Procedia CIRP, 2016, 43: 333-338. [6] LINDEMANN H, KLOFT H, HACK N. Gradual transition shotcrete 3D printing[J]. Advances in Architectural Geometry, 2018, 9: 22-25. [7] KLOFT H, HACK N, MAINKA J, et al. Additive Fertigung im Bauwesen: erste 3-D-gedruckte und bewehrte betonbauteile im shotcrete-3-D-printing-verfahren (SC3DP)[J]. Bautechnik, 2019, 96(12): 929-938. [8] LU B, LI M, LEONG K F, et al. Develop cementitious materials incorporating fly ash cenophere for spray-based 3D printing[C]//Proceedings of the 3rd International Conference on Progress in Additive Manufacturing, 2018: 38-43. [9] CHEN Y, CHAVES FIGUEIREDO S, LI Z M, et al. Improving printability of limestone-calcined clay-based cementitious materials by using viscosity-modifying admixture[J]. Cement and Concrete Research, 2020, 132: 106040. [10] KLOFT H, KRAUSS H W, HACK N, et al. Influence of process parameters on the interlayer bond strength of concrete elements additive manufactured by Shotcrete 3D Printing (SC3DP)[J]. Cement and Concrete Research, 2020, 134: 106078. [11] DRESSLER I, FREUND N, LOWKE D. The effect of accelerator dosage on fresh concrete properties and on interlayer strength in shotcrete 3D printing[J]. Materials, 2020, 13(2): 374. [12] YU J C, QIAN J S, WANG F, et al. Preparation and properties of a magnesium phosphate cement with dolomite[J]. Cement and Concrete Research, 2020, 138: 106235. [13] XU B W, LOTHENBACH B, MA H Y. Properties of fly ash blended magnesium potassium phosphate mortars: effect of the ratio between fly ash and magnesia[J]. Cement and Concrete Composites, 2018, 90: 169-177. [14] QIN J H, QIAN J S, YOU C, et al. Bond behavior and interfacial micro-characteristics of magnesium phosphate cement onto old concrete substrate[J]. Construction and Building Materials, 2018, 167: 166-176. [15] LI Y, CHEN B. Factors that affect the properties of magnesium phosphate cement[J]. Construction and Building Materials, 2013, 47: 977-983. [16] QIAO F, CHAU C K, LI Z J. Property evaluation of magnesium phosphate cement mortar as patch repair material[J]. Construction and Building Materials, 2010, 24(5): 695-700. [17] KIM H, HAN D, KIM K, et al. Performance assessment of repair material for deteriorated concrete slabs using chemically bonded cement[J]. Construction and Building Materials, 2020, 237: 117468. [18] 刘周强,张力文,孙 卓,等.磷酸镁嵌入式纤维筋加固系统界面试验研究[J].哈尔滨工程大学学报,2020,41(9):1287-1294. LIU Z Q, ZHANG L W, SUN Z, et al. Experimental study of the interface of magnesium phosphate cement near-surface mounted GFRP system[J]. Journal of Harbin Engineering University, 2020, 41(9): 1287-1294 (in Chinese). [19] 李 悦,白伟亮,施同飞,等.用MPC黏结CFRP布约束混凝土柱轴压试验研究[J].北京工业大学学报,2017,43(3):467-472. LI Y, BAI W L, SHI T F, et al. Research on axial compression test of CFRP confined concrete column with MPC[J]. Journal of Beijing University of Technology, 2017, 43(3): 467-472 (in Chinese). [20] LIU X F, LI Y. Plain concrete prisms externally strengthened by CFRP bonded with graphene oxide-modified magnesium phosphate cement[J]. Journal of Materials in Civil Engineering, 2020, 32(5): 04020069. [21] LI Y, LIU X F, WANG Z G. Experimental study on reinforcement and chloride extraction of concrete column with MPC-CFRP composite anode[J]. KSCE Journal of Civil Engineering, 2019, 23(4): 1766-1775. [22] LI Y, LIU X F, WU M K, et al. Research of electrochemical chloride extraction and reinforcement of concrete column using MPC-bonded carbon fiber reinforced plastic sheet & mesh[J]. Construction and Building Materials, 2017, 153: 436-444. [23] 李 振,王大富.旋转黏度计测定水泥浆体静态屈服应力和黏弹性研究[J].硅酸盐通报,2017,36(6):1818-1822. LI Z, WANG D F. Static yield stress and viscoelasticity of fresh cement paste measured by rotational viscometer[J]. Bulletin of the Chinese Ceramic Society, 2017, 36(6): 1818-1822 (in Chinese). [24] 谢友均,陈小波,马昆林,等.粉煤灰对水泥浆体的剪切变稀和剪切增稠作用[J].硅酸盐学报,2015,43(8):1040-1046. XIE Y J, CHEN X B, MA K L, et al. Effects of fly ash on shearing thinning and thickening of cement paste[J]. Journal of the Chinese Ceramic Society, 2015, 43(8): 1040-1046 (in Chinese). [25] QIN Z H, MA C, ZHENG Z Q, et al. Effects of metakaolin on properties and microstructure of magnesium phosphate cement[J]. Construction and Building Materials, 2020, 234: 117353. [26] 石亚文,陈 兵.偏高岭土改性磷酸镁水泥[J].硅酸盐学报,2018,46(8):1111-1116. SHI Y W, CHEN B. Magnesium phosphate cement modified by metakaolin[J]. Journal of the Chinese Ceramic Society, 2018, 46(8): 1111-1116 (in Chinese). |