[1] PAOLINI A,KOLLMANNSBERGER S,RANK E. Additive manufacturing in construction: a review on processes,applications,and digital planning methods［J］. Additive Manufacturing,2019,30: 100894.

[2] LIU J L,NGUYEN-VAN V,PANDA B,et al. Additive manufacturing of sustainable construction materials and form-finding structures: a review on recent progresses［J］. 3D Printing and Additive Manufacturing,2022,9(1): 12-34.

[3] CAMACHO D D,CLAYTON P,O’BRIEN W J,et al. Applications of additive manufacturing in the construction industry: a forward-looking review［J］. Automation in Construction,2018,89: 110-119.

[4] DE SCHUTTER G,LESAGE K,MECHTCHERINE V,et al. Vision of 3D printing with concrete: technical,economic and environmental potentials［J］. Cement and Concrete Research,2018,112: 25-36.

[5] WANG L,LIN W Y,JIANG H L. Experimental study on carbonation resistance of 3D printed concrete with aeolian sand［J］. Journal of Changsha University of Science & Technology (Natural Science),2022,19(4): 64-74 (in Chinese).

[6] WANG Y F. Study on the effect of curing period on carbonation resistance of fly ash concrete［J］. Railway Construction Technology,2022(8): 10-14 (in Chinese).

[7] CHEN W. Experimental study on anti-carbonation performance of after-mixing coarse aggregate concrete［D］.Dalian: Dalian University of Technology,2022 (in Chinese).

[8] LI Y Y. Influence of recycled aggregate content on carbonation performance of concrete［D］.Xi’an: Xi’an University of Science and Technology,2021 (in Chinese).

[9] LUO Z Y. Study on effect of PVA fiber modification on carbonation resistance of concrete［D］.Wuhan: Huazhong University of Science and Technology,2021 (in Chinese).

[10] 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.

[11] WANG L,WANG B L,BAI G,et al. Experimental study on the mechanical anisotropy of 3D printed concrete［J］. Journal of Experimental Mechanics,2020,35(2): 243-250 (in Chinese).

[12] SUN X Y,WANG Q,WANG H L,et al. Influence of multi-walled nanotubes on the fresh and hardened properties of a 3D printing PVA mortar ink［J］. Construction and Building Materials,2020,247: 118590.

[13] LE T T,AUSTIN S A,LIM S,et al. Hardened properties of high-performance printing concrete［J］. Cement and Concrete Research,2012,42(3): 558-566.

[14] ZHANG J. Constitutive model of 3D printed concrete and flexural behavior of beams ［D］. Hangzhou: Zhejiang University,2021 (in Chinese).

[15] ZHANG D W,WANG D M. Progress of 3D print of concrete materials and concrete construction technology［J］. Bulletin of the Chinese Ceramic Society,2015,34(6): 1583-1588 (in Chinese).

[16] WANG Q. Research on the pivotal technology of 3D printed concrete arch bridge［D］.Hangzhou: Zhejiang University,2019 (in Chinese).

[17] SUN X Y,ZHOU J W,WANG Q,et al. PVA fibre reinforced high-strength cementitious composite for 3D printing: mechanical properties and durability［J］. Additive Manufacturing,2022,49: 102500.

[18] HOUST Y F,WITTMANN F H. Influence of porosity and water content on the diffusivity of CO2 and O2 through hydrated cement paste［J］. Cement and Concrete Research,1994,24(6): 1165-1176.