[1] WU H N, SHEN S L, LIAO S M, et al. Longitudinal structural modelling of shield tunnels considering shearing dislocation between segmental rings［J］. Tunn Undergr Sp Technol, 2015, 31: 20-32.

[2] AZADI M, POURAKBAR S, KASHFI A. Assessment of optimum settlement of structure adjacent urban tunnel by using neural network methods［J］. Tunn Undergr Sp Technol, 2013, 37: 1-9.

[3] LAI J X, ZHOU H, WANG K, et al. Shield-driven induced ground surface and Ming dynasty city wall settlement of Xi’an metro［J］. Tunn Undergr Sp Technol, 2020, 97: 1-17.

[4] LIAO S M, LIU J H, WANG R L, et al. Shield tunneling and environment protection in Shanghai soft ground［J］. Tunn Undergr Sp Technol, 2009, 24: 454-465.

[5] ZHANG N, SHEN J S, ZHOU A N, et al. Tunneling induced geohazards in mylonitic rock faults with rich groundwater: A case study in Guangzhou［J］. Tunn Undergr Sp Technol, 2018, 74: 262-272.

[6] BEZUIJEN A, TALMON A M. Grout, the foundation of a bored tunnel［C］//Proceedings of the BGA International Conference on Foundations: Innovations, Observations, Design and Practice, Scotland, British, 2003: 9-13.

[7] WANG S M, HE C, NIE L, et al. Study on the long-term performance of cement-sodium silicate grout and its impact on segment lining structure in synchronous backfill grouting of shield tunnels［J］. Tunn Undergr Sp Technol, 2019, 92: 0886-7798.

[10] MAO J H, YUAN D J, JIN D L, et al. Optimization and application of backfill grouting material for submarine tunnel［J］. Constr Build Mater, 2020, 265(30): 0950-0618.

[11] MARIE J, NATHALIE A, GWENN L S, et al. Influence of triethanolamine on cement pastes at early age of hydration［J］. Adv Cem Res, 2018, 30(4): 159-171.

[14] GAO D Y, CHE Q F, MENG Y, et al. Properties evolution of calcium sulfoaluminate cement blended with ground granulated blast furnace slag suffered from sulfate attack［J］. J Mater Res Technol, 2022, 17: 1642-1651.

[16] 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］. Addit Manuf, 2021, 46: 2214-8604.

[24] LIU H, LIN H, LIU X Y, et al. Effects of triethanolamine on autogenous shrinkage and drying shrinkage of cement mortar［J］. Constr Build Mater, 2021, 304(18): 0950-0618.

[32] LU Z C, KONG X M, JANSEN D, et al. Towards a further understanding of cement hydration in the presence of triethanolamine［J］. Cem Concr Res, 2020, 132: 106041.

[33] ZHANG Y R, KONG X M, LU Z C, et al. Influence of triethanolamine on the hydration product of portlandite in cement paste and the mechanism［J］. Cem Concr Res, 2016, 87: 64-76.

[34] HE Y, LIU S H, ZHANG X, et al. Influence of triethanolamine on mechanical strength and hydration performance of blended cement containing fly ash, limestone and slag［J］. J Build, 2021, 44: 2352-7102.