[1] 梁仕华, 林坚鹏, 龚星, 等.不同水泥基外掺剂固化广州南沙有机质软土的对比试验研究[J].工业建筑, 2019,49(2): 93-97.(Liang Shihua, Lin Jianpeng, Gong Xing, et al.Comparative experimental on solidification of Nansha organic soft soil with cement and different admixtures, Guangzhou with different cement-based admixtures[J].Industrial Construction, 2019, 49(2): 93-97.(in Chinese))
[2] 梁仕华, 周锦程, 罗祺, 等.有机质对水泥固化淤泥土的力学特性影响试验研究[J].广东工业大学学报, 2019,36(6): 86-91.(Liang Shihua, Zhou Jincheng, Luo Qi, et al.An experimental research on the effect of organic matter on mechanical properties of cementing solidified silt[J].Journal of Guangdong University of Technology, 2019,36(6): 86-91.(in Chinese))
[3] 李军霞, 王常明, 张先伟, 等.两种滨海相软土固结特性的试验研究[J].水文地质工程地质, 2009,36(5): 35-39, 52.(Li Junxia, Wang Changming, Zhang Xianwei, et al.Experimental study on consolidation properties of two marine soft soils[J].Hydrogeology & Engineering Geology, 2009,36(5): 35-39, 52.(in Chinese))
[4] 周书东, 黄锦盛, 张彤炜, 等.东莞滨海软土物理力学指标统计与相关性分析[J].土工基础, 2022,36(6): 992-996.(Zhou Shudong, Huang Jinsheng, Zhang Tongwei, et al.Statistical and correlation analysis of physical and mechanical indexes of Dongguan coastal soft clay[J].Soil Engineering and Foundation, 2022, 36(6): 992-996.(in Chinese))
[5] 王启云, 卓祖磊, 项玉龙, 等.厦门市海积淤泥水泥土力学性能试验研究[J].地下空间与工程学报, 2022, 18(6): 1942-1948.(Wang Qiyun, Zhuo Zulei, Xiang Yulong, et al.Experimental study on mechanical properties of cemented marine silt in Xiamen[J].Chinese Journal of Underground Space and Engineering, 2022, 18(6): 1942-1948.(in Chinese))
[6] 梅警方, 曾庆强, 王臻华, 等.水泥复合固化剂加固淤泥的工程性质及机理研究[J].安全与环境工程, 2021,28(6): 215-224.(Mei Jingfang, Zeng Qingqiang, Wang Zhenhua, et al.Research on the engineering properties and mechanism of cement composite curing agent to strengthen silt[J].Safety and Environmental Engineering, 2021,28(6): 215-224.(in Chinese))
[7] 中华人们共和国住房和城乡建设部.建筑地基处理技术规范(JGJ /T 79-2012 )[S].北京: 中国建筑工业出版社, 2011.(Ministry of Housing and Urban-Rural Development of the People's Republic of China.Technical code for ground treatment of buildings (JGJ/T 79-2012)[S].Beijing: China Architecture & Building Press, 2011.(in Chinese))
[8] 国家能源局.深层搅拌法地基处理规范(DL/T 5425-2018 )[S].北京: 中国电力出版社,2019.(National Energy Administration.Techical specification for deep mixing ground treatment (DL/T 5425-2018)[S].Beijing: China Electric Power Press, 2019.(in Chinese))
[9] Park J, Bae S, Lee K, et al.Resistance toacid and sulfate of concrete containing mineral admixtures[A] // Proceedings of the Korea Concrete Institute Conference[C].Korea Concrete Institute, 2009: 281-282.
[10] Sai Chandu A, Rama Subba Rao G V.Strength and durability characteristics of red soilstabilised with foundry sand and cement[J].Arabian Journal for Science and Engineering, 2021, 46: 5171-5178.
[11] 周锦程.掺砂水泥浆固化华南滨海软土的强度特性试验和理论研究[D].广州:广东工业大学, 2021.(Zhou Jincheng.Experimental and theoretical research on the strength characteristics of sand-added cement slurry solidified coastal soft soil in South China[D].Guangzhou: Guangdong University of Technology, 2021.(in Chinese))
[12] 黄灏.华南滨海环境水泥固化软土的耐久性及其强度劣化机理试验研究[D].广州: 广东工业大学, 2022.(Huang Hao.Experimental study on the durability and strength deterioration mechanism of cement-solidified soft soil in the coastal environment of South China[D].Guangzhou: Guangdong University of Technology, 2022.(in Chinese))
[13] 汪大飞.不同外掺剂与水泥固化华南有机质软土的力学性能及耐久性研究[D].广州: 广东工业大学, 2023.(Wang Dafei.Study on the mechanical properties and durability of organic soft soil in South China solidified with different external admixtures and cement[D].Guangzhou: Guangdong University of Technology, 2023.(in Chinese))
[14] Jewell R B, Rathbone R F,Duvallet T Y, et al.Fabrication and testing of low-energy calcium sulfoaluminate-belite cements that utilize circulating fluidized bed combustion by-products[J].Coal Combustion and Gasification Products, 2015, 7(2): 9-18.
[15] 甘雅雄, 朱伟, 吕一彦, 等.从水分转化研究早强型材料固化淤泥的早强机理[J].岩土工程学报, 2016,38(4): 755-760.(Gan Yaxiong, Zhu Wei, Lu Yiyan, et al Early-strength mechanism of cementitious additives from perspective of water conversion[J].Chinese Journal of Geotechnical Engineering, 2016, 38(4): 755-760.(in Chinese))
[16] 张云升, 孙伟, 沙建芳, 等.粉煤灰地聚合物混凝土的制备、特性及机理[J].建筑材料学报, 2003,6(3): 237-242.(Zhang Yunsheng, Sun Wei, Sha Jianfang, et al.Preparation, Properties and mechanism of fly ash based geopolymer concrete[J].Journal of Building Materials, 2003, 6(3): 237-242.(in Chinese))
[17] 刘泉声, 柳志平, 程勇, 等.水泥土在侵蚀环境中的试验研究和等效分析[J].岩土力学, 2013,34(7): 1854-1860.(Liu Quansheng, Liu Zhiping, Cheng Yong, et al.Experimental study and equivalent analysis of cemented soil under corrosion environment[J].Rock and Soil Mechanics, 2013, 34(7): 1854-1860.(in Chinese))
[18] 中华人民共和国国务院新闻办公室.新时代的中国绿色发展[R].2023-01-19.(Information Office of the State Council of the People's Republic of China.China's green development in the new era[R].2023-01-19.(in Chinese))
[19] Singh N.Fly ash-based geopolymer binder: A future construction material[J].Minerals (Basel), 2018,8(7): 299.
[20] 王东星, 王宏伟, 邹维列, 等.碱激发粉煤灰固化淤泥微观机制研究[J].岩石力学与工程学报, 2019,38(增1): 3197-3205.(Wang Dongxing, Wang Hongwei, Zou Weilei, et al.Research on micro-mechanisms of dredged sludge solidified with alkali-activated fly ash[J].Chinese Journal of Rock Mechanics and Engineering, 2019,38(Supp.1): 3197-3205 (in Chinese))
[21] Luo Y, Meng J, Wang D, et al.Experimental study on mechanical properties and microstructure of metakaolin based geopolymer stabilized silty clay[J].Construction and Building Materials, 2022, 316: 125662.
[22] Yaghoubi M,Arulrajah A, Disfani M M, et al.Effects of industrial by-product based geopolymers on the strength development of a soft soil[J].Soils and Foundations, 2018, 58(3): 716-728.
[23] Cui C, Yu C, Zhao J, et al.Steel slag/precarbonated steel slag as a partial substitute for Portland cement: Effect on the mechanical properties and microstructure of stabilized soils[J].KSCE Journal of Civil Engineering, 2022,26(9): 3803-3814.
[24] Zhang L, Wang B, Wang L, et al.Performance improvement in pile anchor system for deep foundation excavation using electroosmotic chemical treatment[J].Advances in Civil Engineering, 2019,2019: 1-10.
[25] 周炳强.辽东湾地区吹填土电渗加固实验及模拟研究[D].长春:吉林大学, 2014.(Zhou Bingqiang.Experimental and simulation research on electro-osmotic reinforcement of soil filling in Liaodong Bay area[D].Chang Chun: Jilin University, 2014.(in Chinese))
[26] Zhang Y, Jin Z, Hou Y, et al.Fluid-solid coupling effect on numerical simulation of deep foundation pit deformation in soft soil area[J].Applied sciences, 2022,12(21): 11242.
[27] Wang X, Zhao J, Wang L, et al.Strength test of steel slag powder-ground granulated blast-furnace slag powder-fly ash-cement solidified soft soil[A] // 2021 7th International Conference on Hydraulic and Civil Engineering & Smart Water Conservancy and Intelligent Disaster Reduction Forum (ICHCE & SWIDR)[C].IEEE, 2021: 578-582.
[28] Lei H, Yang X, Feng S, et al.Softening and deformation characteristics of Tianjin soft soil under principal stress rotation induced by traffic loading[J].Soil Dynamics and Earthquake Engineering, 2023,164: 107587.
[29] Wu Y, Tran Q C, Zhang X, et al.Experimental investigation on the treatment of different typical marine dredged sludges by flocculant and vacuum preloading[J].Arabian Journal of Geosciences, 2022,15(7).
[30] 陈刚,马艳慧,郭肖阳,等.氯盐侵蚀钢渣水泥固化淤泥土力学特性及氯离子运移规律研究[J].公路交通科技,2023,40(1):48-58.(Chen Gang, Ma Yanhui, Guo Xiaoyang, et al.Study on mechanical properties of steel slag cement solidified silt soil and law of chloride ion transport under different erosion iimes[J].Journal of Highway and Transportation Research and Development, 2023,40(1):48-58.(in Chinese))
[31] Cui J, Yang Z, Azzam R.Field measurement and numerical study on the effects of under-excavation and over-excavation on ultra-deep foundation pit in coastal area[J].Journal of Marine Science and Engineering, 2023,11(1): 11010219.
[32] Wu J, Xuan Y, Deng Y, et al.Combined vacuum and surcharge preloading method to improvelianyungang soft marine clay for embankment widening project: A case[J].Geotextiles and Geomembranes, 2021,49(2): 452-465.
[33] Xing H, Yang X, Xu C, et al.Strength characteristics and mechanisms of salt-rich soil-cement[J].Engineering Geology, 2009,103(1-2): 33-38.
[34] Chen S, Guan Y, Dai J.Behaviour of anchored sheet pile quay stabilized with deep cement mixing columns in soft soil: Centrifuge and numerical modelling[J].Computers and Geotechnics, 2023,160: 105504.
[35] Ye G, Lin N, Bao X, et al.Effect of quaternary transgression and regression on the engineering properties of Shanghai soft clays[J].Engineering Geology, 2018,239: 321-329.
[36] Jin H, Yuan D, Jin D, et al.Ground deformation induced by shield tunneling posture in soft soil[J].Tunnelling and Underground Space Technology, 2023,139: 105227.
[37] Wang Z, Yao W, Cai Y, et al.Analysis of ground surface settlement induced by the construction of a large-diameter shallow-buried twin-tunnel in soft ground[J].Tunnelling and Underground Space Technology, 2019,83: 520-532.
[38] Yao Y, Lu N, Yang Y, et al.Study of long-termed displacements of a tunnel boring machine during its stoppage[J].Tunnelling and Underground Space Technology, 2019,84: 432-439.
[39] Zhuang Y.Large scale soft ground consolidation using electrokinetic geosynthetics[J].Geotextiles and Geomembranes, 2021,49(3): 757-770.
[40] 崔兵, 王军, 丁光亚, 等.低路堤软土地基在交通荷载作用下的动力特性试验研究[J].科学技术与工程, 2016,16(25): 131-136.(Cui Bing, Wang Jun, Ding Guangya, et al.Model test on dynamic characteristics of low embankment on soft clay foundation under traffic loading[J].Science Technology and Engineering, 2016,16(25): 131-136.(in Chinese))
[41] Feng S, Lei H.A settlement prediction model considering tidal loading and traffic loading of soft soil subgrade[J].Computers and Geotechnics, 2022,144: 104639.
[42] Yang J, Kong D.Deformation of deep and large foundation pit in soft soil of Fuzhou Subway[J].Arabian Journal of Geosciences, 2020, 13: 1-10.
[43] 任君梅.泉州湾软土分布特征及工程特性[J].福建地质, 2010, 29(2): 146-152.(Ren Junmei.Distribution and engineering characteristics of the soft soil in the Quanzhou bay[J].Geology of Fujian, 2010, 29(2): 146-152.(in Chinese))
[44] Li D, Chen L, Chen Y, et al.Application of artificial solidified crust - PVDs method in ground improvement: A case study[J].Transportation Geotechnics, 2023,39: 100941.
[45] Huang W, Wen K, Liu D, et al.Experimental study on influence of excess pore water pressure and unloading ratio on unloading mechanical properties of marine sedimentary soft soils[J].Ocean Engineering, 2020,195: 106680.
[46] Lin P, Chen X, Jiang M, et al.Mapping shear strength and compressibility of soft soils with artificial neural networks[J].Engineering Geology, 2022,300: 106585.
[47] Yuan J, Liu Z, Hu G, et al.Experimental analysis of the influence of soil composition on strength characteristics[J].Soil Mechanics and Foundation Engineering, 2018,55(5): 325-332.
[48] Fu X, Li J, Liu J, et al.Influence of complex hydraulic environments on the mechanical properties of pile-soil composite foundation in the coastal soft soil area of Zhuhai[J].Buildings, 2023,13(2): 563.
[49] 荣艳丽, 陶旭光.澳门海积软土压缩特性和工程地质分层探讨[J].工程勘察, 2021,49(10): 35-39.(Rong Yanli, Tao Xuguang.Compression characteristics and engineering geological stratification of marine soft soil in Macu[J].Geotechnical Investigation & Surveying, 2021,49(10): 35-39.(in Chinese))
[50] Guan D, Zhang W, Zhou G, et al.Overconsolidation characteristics of silt layer in the Guangdong-Hong Kong-Macao Greater Bay Area[J].Advances in Civil Engineering, 2022, 2022(4): 1-9.
[51] 杨华保.基于有限元分析的软土路基加固效果研究—以茂名市某公路工程为例[J].工程技术研究, 2022,7(22): 30-32.(Yang Huabao.Research on the reinforcement effect of soft soil subgrade based on finite element analysis—taking a highway project in maoming city as an example[J].Engineering and Technological Research, 2022, 7(22): 30-32.(in Chinese))
[52] 李梦幻, 吴治兴, 周东.北部湾吹填场地海积软土动力特性试验[J].桂林理工大学学报, 2022,42(2): 403-409.(Li Mengmeng, Wu Zhixing, Zhou Dong.Experiment analysis of dynamic characteristics of marine soft soil in Beibu Gulf[J].Journal of Guilin University of Technology, 2022, 42(2): 403-409.(in Chinese))
[53] Wu C, Zhang D, Xia H, et al.Embankment deformation characteristics analysis of an expressway widening project near a pond[J].Scientific Reports, 2023,13(1): 717.
[54] 黄丽珊.浅析饱水淤泥和粘性土的黏聚力[J].矿产与地质, 2005(2):201-203.(Huang Lishan.Cohesion of saturated silt and cohesive soil[J].Minerals Resources and Geology, 2005(2):201-203.(in Chinese))
[55] Pakir F B, Abdul Karim A T B, Ling F N L, et al.Effect of humic acid on geochemistry properties of kaolin[J].Advanced materials research, 2013, 701: 310-313.
[56] 李磊, 朱伟, 吉顺健, 等.微生物对固化/稳定化污泥长期强度的影响研究[J].岩土工程学报, 2008,30(12): 1778-1782.(Li Lei, Zhu Wei, Ji Shunjian, et al.Influence of micro-organism on long-term strength of solidified/stabilized sludge[J].Chinese Journal of Geotechnical Engineering, 2008,30(12): 1778-1782.(in Chinese))
[57] 吴军, 汪洪星, 谈云志, 等.腐殖酸对污泥固化土长期强度的劣化效应[J].长江科学院院报, 2017,34(8): 130-134.(Wu Jun, Wang Hongxing, Tan Yunzhi, et al.Degradation effect of humic acid on long-term strength of solidified sludge soil[J].Journal of Changjiang River Scientific Research Institute, 2017,34(8): 130-134.(in Chinese))
[58] 张春雷.基于水分转化模型的淤泥固化机理研究[D].南京: 河海大学, 2007.(Zhang Chunlei.Study of dredged sediments solidification mechanism based on water transfer model[D].Nanjing: Hohai University, 2007.(in Chinese))
[59] Shu B, Gong H, Chen S, et al.Case Study of Solid Waste Based Soft Soil Solidifying Materials Applied in Deep Mixing Pile[J].Buildings, 2022,12(8): 1193.
[60] Wong J K H, Kok S T, Wong S Y.Cementitious, pozzolanic and filler materials for DSM binders[J].Civil Engineering Journal, 2020,6(2): 402-417.
[61] 高海钦.不同类型水泥固化华南滨海软土的强度特性及耐久性试验研究[D].广州: 广东工业大学, 2023.(Gao Haiqin.Experimental study on the strength characteristics and durability of different types of cement-solidified coastal soft soil in South China[D].Guangzhou: Guangdong University of Technology, 2023.(in Chinese))
[62] 黄新.水化产物钙矾石在软土地基加固中的增强作用[J].硅酸盐学报, 2000(4): 299-302.(Huang Xin.Strength enhancement effect of ettringite in soft soil stabilization[J].Journal of the Chinese Ceramic Society, 2000(4): 299-302.(in Chinese))
[63] 崔永成, 崔自治, 周健, 等.银川地区粉煤灰水泥土的力学特性试验研究[J].工业建筑, 2012,42(7): 105-109.(Cui Yongcheng, Cui Zhizhi, Zhou Jian, et al.Experimental study on the mechanical properties of fly ash cement soil in Yinchuan area[J].Industrial Construction, 2012, 42(7): 105-109.(in Chinese))
[64] 武华荟.水泥—粉煤灰胶凝体系中粉煤灰强度贡献率研究[D].长沙: 中南大学, 2009.(Wuhua Hui.Study on the strength contribution rate of cement-fly ash in fly ash gelling system[D].Changsha: Central South University, 2009.(in Chinese))
[65] 徐超, 郭宏峰, 杨晓明, 等.普硅水泥和矿渣水泥加固滨海软土效果对比分析[J].岩土力学, 2009,30(9): 2737-2740.(Xu Chao, Guo Hongfeng, Yang Xiaoming, et al.Comparation analyses of the effects of marine soft soil improved by portland cement and slag cement[J].Rock and Soil Mechanics, 2009, 30(9): 2737-2740.(in Chinese))
[66] 杨华全, 覃理利, 董维佳, 等.掺矿渣微粉和粉煤灰的水泥胶砂性能试验研究[J].长江科学院院报, 2001(1): 16-19.(Yang Huaquan, Tan Lili, Dong Weijia, et al.Study on properties of cement mortar mixed with powdered slag & flyash[J].Journal of Yangtze River Scientific Research Institute, 2001(1): 16-19.(in Chinese))
[67] 汤怡新, 刘汉龙, 朱伟.水泥固化土工程特性试验研究[J].岩土工程学报, 2000,22(5): 549-554.(Tang Yixin, Liu Hanlong, Zhu Wei.Study on engineering properties of cement-stabilized soil[J].Chinese Journal of Geotechnical Engineering, 2000,22(5): 549-554.(in Chinese))
[68] 李俊才, 赵泽三, 高国瑞.水泥土的微结构特征及分析[J].成都理工学院学报, 2000(4): 388-393.(Li Juncai, Zhao Zesan, Gao Guorui.Microstructure characteristics and analysis of cement soil[J].Journal of Chengdu Institute of Technology, 2000(4): 388-393.(in Chinese))
[69] 简文彬, 张登, 黄春香.水泥
水玻璃固化软土的微观机理研究[J].岩土工程学报, 2013,35(增2): 632-637.(Jian Wenbin, Zhang Deng, Huang Chunxiang.Micromechanism of cement-sodium silicate-stabilized soft soils[J].Chinese Journal of Geotechnical Engineering, 2013, 35(Supp.2): 632-637.(in Chinese))
[70] 中华人们共和国住房和城乡建设部.水泥土配合比设计规程(JGJ /T 233-2011)[S].北京: 中国建筑工业出版社, 2011.(Ministry of Housing and Urban-Rural Development of the People's Republic of China.Cement-soil mix design regulations(JGJ/T 233-2011)[S].Beijing: China Architecture & Building Press, 2011.(in Chinese))
[71] 黄新, 宁建国, 郭晔, 等.水泥含量对固化土结构形成的影响研究[J].岩土工程学报, 2006, 28(4): 436-441.(Huang Xin, Ning Jianguo, Guo Ye, et al.Effect of cement content on the structural formation of stabilized soil[J].Chinese Journal of Geotechnical Engineering, 2006, 28(4): 436-441.(in Chinese))
[72] 范晓秋, 洪宝宁, 胡昕, 等.水泥砂浆固化土物理力学特性试验研究[J].岩土工程学报, 2008,30(4): 605-610.(Fan Xiaoqiu, Hong Baoning, Hu Xin, et al.Physico-mechanical properties of soils stabilized by cement mortar[J].Chinese Journal of Geotechnical Engineering, 2008, 30(4): 605-610.(in Chinese))
[73] 黄龙波, 汪洪星, 谈云志, 等.固化淤泥土长期强度发展规律与预测模型研究[J].武汉理工大学学报, 2016,38(2): 70-75.(Huang Longbo, Wang Hongxing, Tan Yunzhi, et al.Solidified silt long-term strength developing principal research considering the infleunce of initial water content and solidification agents[J].Journal of Wuhan University of Technology, 2016, 38(2): 70-75.(in Chinese))
[74] 陈林.水泥固化淤泥强度早期预测方法[D].武汉: 华中科技大学, 2019.(Chen Lin.Early prediction method for strength of cement-solidified silt[D].Wuhan: Huazhong University of Science and Technology, 2019.(in Chinese))
[75] Wei Y, Guo W, Liang S.Microprestress-solidification theory-based tensile creep modeling of early-age concrete: Considering temperature and relative humidity effects[J].Construction and Building Materials, 2016,127: 618-626.
[76] 张春雷, 汪顺才, 朱伟, 等.初始含水率对水泥固化淤泥效果的影响[J].岩土力学, 2008, 29(增1): 567-570.(Zhang Chunlei, Wang Shuncai, Zhu Wei, et al.Influence of initial water content on cement solidification effect of dredged material[J].Rock and Soil Mechanics, 2008, 29(Supp.1): 567-570.(in Chinese))
[77] Yin J, Lai C K.Strength and stiffness of Hong Kong marine deposits mixed with cement[J].Geotechnical Engineering, 1998, 29(1): 29-44.
[78] 郑少辉.低掺量水泥固化高含水率淤泥强度影响因素试验研究[D].武汉: 华中科技大学, 2015.(Zheng Shaohui.Experimental study on factors affecting the strength of high moisture content silt solidified with low cement content[D].Wuhan: Huazhong University of Science and Technology, 2015.(in Chinese))
[79] Horpibulsk S, Rachan R, Suddeepong A, et al.Strength development in cement admixed Bangkok clay: Laboratory and field investigations[J].Soils and Foundations, 2011, 51(2): 239-251.
[80] Lee F, Lee Y, Chew S, et al.Strength and modulus of marine clay-cement mixes[J].Journal of geotechnical and geoenvironmental engineering, 2005, 131(2): 178-186.
[81] 章荣军, 郑少辉, 郑俊杰.低掺量水泥固化高含水率黏土强度特性研究[J].华中科技大学学报(自然科学版), 2015,43(10): 101-106.(Zhang Rongjun, Zheng Shaohui, Zheng Junjie.Experimental study on strength behavior of high water content clay stabilized by low amount of cement[J].Journal of Huazhong University of Science and Technology (Natural Science Edition) 2015, 43(10): 101-106.(in Chinese))
[82] Uddin K, Balasubramaniam A S, Bergado D T.Engineering behavior of cement-treated Bangkok soft clay[J].Geotechnical engineering, 1997, 28(1): 89-119.
[83] Bergado D T, Anderson L R, Miura N, et al.Soft ground improvement; in lowland and other environments[M].New York, NY: American Society of Civil Engineers Press, 1996.
[84] Horpibulsuk S, Miura N, Nagaraj T S.Assessment of strength development in cement-admixed high water content clays with Abrams' law as a basis[J].Géotechnique, 2003, 53(4): 439-444.
[85] 章定文, 曹智国, 范礼彬, 等.氯盐含量对水泥固化连云港海相软土无侧限抗压强度的影响[J].东南大学学报(英文版), 2013,29(1): 79-83.(Zhang Dingwen, Cao Zhiguo, Fan Libin, et al.Effect of chloride salt concentration on unconfined compression strength of cement-treated Lianyungang soft marine clay[J].Journal of Southeast University (English version), 2013, 29(1): 79-83.(in Chinese))
[86] 贾坚.影响水泥土强度的综合含水量研究[J].地下空间与工程学报, 2006, 2(1): 132-136.(Jia Jian.Research on comprehensive water content of cement treated soil[J].Chinese Journal of Underground Space and Engineering, 2006, 2(1): 132-136.(in Chinese))
[87] 饶彩琴, 黄汉盛.深圳软土水泥土抗压强度的影响因素研究[J].华中科技大学学报(城市科学版), 2009, 26(2): 99-102.(Rao Caiqin, Huang Hansheng.Factors affecting the compression strength of Shenzhen cement-stabilized soft soil[J].Journal of Huazhong University of Science and Technology (Urban Science Edition), 2009,26(2): 99-102.(in Chinese))
[88] 刘勇健, 刘湘秋, 刘雅恒, 等.珠江三角洲软土物理力学性质对比分析[J].广东工业大学学报, 2013,30(3): 30-36.(Liu Yongjian, Liu Xiangqiu, Liu Yaheng, et al.A Contrastive analysis of the physico-mechanical properties of soft soils in the Pearl River Delta[J].Journal of Guangdong University of Technology, 2013,30(3): 30-36.(in Chinese))
[89] Kononova M A M.Soil organic matter: its nature, its role in soil formation and in soil fertility[M].Elsevier, 2013.
[90] Tremblay H, Duchesne J,Locat J, et al.Influence of the nature of organic compounds on fine soil stabilization with cement[J].Canadian Geotechnical Journal, 2002, 39(3): 535-546.
[91] 刘叔灼, 巴凌真, 杨医博, 等.有机质含量对水泥土强度影响的试验研究[J].武汉理工大学学报, 2009,31(7): 40-43.(Liu Shuzhuo, Balingzhen, Yang Yibo, et al.Research on the influence of organic content on the strength of cement-stabilized soil[J].Journal of Wuhan University of Technology, 2009, 31(7): 40-43.
[92] Venda Oliveira P J, Correia A A S, Garcia M R.Effect of organic matter content and curing conditions on the creep behavior of an artificially stabilized soil[J].Journal of Materials in Civil Engineering, 2012,24(7): 868-875.
[93] Chen H, Wang Q.Thebehaviour of organic matter in the process of soft soil stabilization using cement[J].Bulletin of Engineering Geology and the Environment, 2006, 65: 445-448.
[94] Thompson M R.Lime reactivity of Illinois soils[J].Journal of the Soil Mechanics and Foundations Division, 1966, 92(5): 67-92.
[95] Axelsson K, Johansson S, Andersson R.Stabilization of Organic Soils by Cement and Puzzolanic Reactions-Feasibility Study[R].Swedish Deep Stabilization Research Centre, Report, 2002.
[96] 谈云志, 柯睿, 陈君廉, 等.偏高岭土增强石灰-水泥固化淤泥的耐久性研究[J].岩土力学, 2020,41(4): 1146-1152.(Tan Yunzhi, Ke Rui, Chen Junlian, et al.Enhancing durability of lime-cement solidified sludge with metakaolin[J].Rock and Soil Mechanics, 2020, 41(4): 1146-1152.(in Chinese))
[97] Saride S, Puppala A J, Chikyala S R.Swell-shrink and strength behaviors of lime and cement stabilized expansive organic clays[J].Applied Clay Science, 2013,85: 39-45.
[98] Stevenson F J, Fitch A, Brar M S.Stability constants of Cu (II)-humate complexes: comparison of select models[J].Soil Science, 1993,155(2): 77-91.
[99] 姜鹏, 方磊, 贺富强.抵抗有机质对水泥土强度不利影响的有效方法[J].公路, 2007(3): 17-21.(Jiang Peng, Fang Lei, He Fuqiang.An effective method for reducing disadvantageous effect of organic matter on cement-soil compressive stress[J].Highway, 2007(3): 17-21.(in Chinese))
[100] 杨康辉, 欧忠文, 肖寒冰, 等.水泥基渗透结晶型防水材料对硫铝酸盐水泥固化土性能影响及机制分析[J].岩土力学, 2016, 37(2): 477-486.(Yang Kanghui, Ou Zhongwen, Xiao Hanbing, et al.Mechanism analysis and effect of cementitious capillary crystalline waterproofing materials on sulfur aluminate cement solidified soil[J].Rock and Soil Mechanics, 2016, 37(2): 477-486.(in Chinese))
[101] Guotang Z, Wei S, Guotao Y, et al.Mechanism of cement on the performance of cement stabilized aggregate for high speed railway roadbed[J].Construction and Building Materials, 2017, 144: 347-356.
[102] Liu H, Zhao J, Wang Y, et al.Strength performance and microstructure of calcium sulfoaluminate cement-stabilized soft soil[J].Sustainability, 2021, 13(4): 2295.
[103] Wang H,Zentar R, Wang D, et al.New applications of ordinary Portland and calcium sulfoaluminate composite binder for recycling dredged marine sediments as road materials[J].International Journal of Rock and Soil Mechanics, 2022, 22(6): 4022068.
[104] 邢皓枫, 杨晓明, 徐超, 等.水泥和添加剂对高含盐水泥土强度的影响[J].同济大学学报(自然科学版), 2008(8): 1062-1066.(Xing Haofeng, Yang Xiaoming, Xu Chao, et al.Effects of cement and additive on strength of soil-cement with high salt[J].Journal of Tongji University (Natural Science Edition), 2008(8): 1062-1066.(in Chinese))
[105] 朱向阳.水泥土搅拌桩处置连云港软土地基的试验研究[D].南京:河海大学, 2007.(Zhu Xiangyang.Experimental study on soil-cement mixing pile disposal of soft soil foundation in Lianyungang[D].Nanjing: Hohai University, 2007.(in Chinese))
[106] 杨爱武, 杜东菊, 赵瑞斌, 等.水泥及其外加剂固化天津海积软土的试验研究[J].岩土力学, 2007,28(9): 1823-1827.(Yang Aiwu, Du Dongju, Zhao Ruibin, et al.Experimental study on cement and its additional agent to cure Tianjin marine soft soil[J].Rock and Soil Mechanics, 2007, 28(9): 1823-1827.(in Chinese))
[107] Rogers C, Glendinning, Roff T.Lime modification of clay soils for construction expediency[J].Proceedings of the Institution of Civil Engineers-Geotechnical Engineering, 1997, 125(4): 242-249.
[108] Wang Z, Si F X, Guo C W.Study of early strength and shrinkage properties of cement or lime solidified soil[J].Energy Procedia, 2012, 16: 302-306.
[109] Degirmenci N.The using of wastephosphogypsum and natural gypsum in adobe stabilization[J].Construction and Building Materials, 2008, 22(6): 1220-1224.
[110] 梁仕华, 张朗, 周世宗.水泥基固化剂固化南沙软土的力学及微观试验研究[J].广东工业大学学报, 2015,32(2): 17-22.(Liang Shihua, Zhang Lang, Zhou Shizong.Experimental research of mechanics and microscopic on Nansha soft soil reinforced with cement-based curing agent[J].Journal of Guangdong University of Technology, 2015, 32(2): 17-22.(in Chinese))
[111] 程福周, 雷学文, 孟庆山, 等.水泥—水玻璃固化东湖淤泥的室内试验研究[J].人民长江, 2013,44(24): 45-48.(Cheng Fuzhou, Lei Xuewen, Meng Qingshan, et al.cement-Indoor experimental study on water glass solidification of East Lake silt[J].Yangtze River, 2013,44(24): 45-48.(in Chinese))
[112] 叶华洋, 张伟锋, 韦未, 等.激发剂—地聚合物对软土固化试验研究[J].应用基础与工程科学学报, 2019, 27(4): 906-917.(Ye Huayang, Zhang Weifeng, Wei Wei, et al.Experimental study on the curing of soft soil with activator-geopolymer[J].Journal of Basic Science and Engineering, 2019, 27(4): 906-917.(in Chinese))
[113] 施惠生, 郭晓潞, 吴凯, 等.预处理城市生活垃圾焚烧飞灰作水泥混合材的研究[J].水泥, 2014(10): 1-6.(Shi Huisheng, Guo Xiaolu, Wu Kai, et al.Research on utilizing pretreatment MSWI fly ash as cement admixture[J].Cement, 2014(10): 1-6.(in Chinese))
[114] Liang S, Chen J, Guo M, et al.Utilization of pretreated municipal solid waste incineration fly ash for cement-stabilized soil[J].Waste Management, 2020, 105: 425-432.
[115] 吴燕开, 胡锐, 赵位莹, 等.钢渣粉固化淤泥质水泥土强度特性试验研究[J].科学技术与工程, 2017,17(15): 306-311.(Wu Yankai, Hu Rui, Zhao Weiying, et al.Study on strength characteristic of muddy cement soil stabilized by steel slag powder[J].Science Technology and Engineering, 2017, 17(15): 306-311.(in Chinese))
[116] Yoobanpot N, Jamsawang P, Simarat P, et al.Sustainable reuse of dredged sediments as pavement materials by cement and fly ash stabilization[J].Journal of Soils and Sediments, 2020,20(10): 3807-3823.
[117] 周世宗, 梁仕华, 戴君.矿渣和粉煤灰固化南沙软土试验研究[J].水利与建筑工程学报, 2015,13(4): 76-79, 125.(Zhou Shizong, Liang Shihua, Dai Jun.Experimental study on solidification of Nansha soft soil by slag and fly ash[J].Journal of Water Resources and Architectural Engineering, 2015,13(4): 76-79, 125.(in Chinese))
[118] 罗祺.水泥基外掺剂固化南沙有机质软土工程性质研究[D].广州: 广东工业大学, 2018.(Luo Qi.Research on the engineering properties of Nansha organic soft soil solidified with cement-based admixtures[D].Guangzhou: Guangdong University of Technology, 2018.(in Chinese))
[119] 梁仕华, 牛九格, 刘思涌, 等.聚丙烯纤维掺量对水泥土强度特性的影响研究[J].建筑科学, 2018,34(3): 90-96.(Liang Shihua, Niu Jiuge, Liu Siyong, et al.Effect of polypropylene fiber content on strength properties of cement soil[J].Building Science, 2018,34(3): 90-96.(in Chinese))
[120] Feng D, Wang Y, Liang S.A mechanism-based shear strength theoretical model for fiber-reinforced cemented soil[J].Journal of Engineering Mechanics, 2023, 149(2): 4022108.
[121] Feng D, Wang Y, Liang S.Theoretical and experimental study on multiscale coupled Mohr-Coulomb shear strength criterion offibre-reinforced sand[J].Underground Space, 2024, 14: 53-69.
[122] 何清举.纤维加筋固化淤泥力学特性影响研究[J].能源与环保, 2018,40(3): 20-23.(He Qingju.Study on mechanical properties of solidified silt with fiber reinforcement[J].China Energy and Environmental Protection, 2018, 40(3): 20-23.(in Chinese))
[123] Yang X, Liang S, Hou Z, et al.Experimental Study on Strength of Polypropylene Fiber Reinforced Cemented Silt Soil[J].Applied Sciences, 2022, 12(16): 8318.
[124] 唐朝生, 顾凯.聚丙烯纤维和水泥加固软土的强度特性[J].土木工程学报, 2011(增2): 5-8.(Tang Chaosheng, Gu Kai.Strength behaviour of polypropylene fiber reinforced cement stabilized soft soil[J].China Civil Engineering Journal, 2011(Supp.2): 5-8.(in Chinese))
[125] 梁仕华, 林焕生, 周世宗, 等.聚丙烯纤维与水泥固化广州南沙软土的试验研究[J].工业建筑, 2018,48(7): 87-90.(Liang Shihua, Lin Huansheng, Zhou Shizong, et al.Experimental research on polypropylene fiber and cement reinforced nansha soft soil in guangzhou, Guangzhou[J].Industrial Construction, 2018,48(7): 87-90.(in Chinese))
[126] 张艳军, 于沉香, 凌飞, 等.石棉纤维粉煤灰水泥加固软土试验研究[J].工程地质学报, 2015,23(5): 982-988.(Zhang Yanjun, Yu Chenxiang, Ling Fei, et al.Experimental study on asbestos fiber reinforced fly ash soil-cement for soft soil enhancement[J].Journal of Engineering Geology, 2015,23(5): 982-988.
[127] 中华人们共和国住房和城乡建设部.混凝土结构耐久性设计标准(GB /T 50476-2019)[S].北京: 中国建筑工业出版社, 2019.(Ministry of Housing and Urban-Rural Development of the People's Republic of China.Standard for design of concrete structure durability(GB /T 50476-2019)[S].Beijing: China Architecture & Building Press, 2019.(in Chinese))
[128] 王东星, 王宏伟, 邹维列.活性MgO-粉煤灰固化淤泥耐久性研究[J].岩土力学, 2019, 40(12): 4675-4684.(Wang Dongxing, Wang Hongwei, Zou Weilie.Study of durability of dredged sludge solidified with reactive MgO-fly ash[J].Rock and Soil Mechanics, 2019, 40(12): 4675-4684.(in Chinese))
[129] Liu Z P, Liu Q S, Qu J W, et al.Study on durability of cement soil under brine erosion[J].Advanced Materials Research, 2012, 446: 1858-1863.
[130] Feng D, Wang J, Chen D, et al.Experimental study on solidification/stabilization of leachate sludge bysulfoaluminate cement and MSWI by-products[J].Environmental Science and Pollution Research, 2023: 1-15.
[131] Feng D, Chen D, Xiao X, et al.Experimental study on the strength and water stability of concentrated solution sludge solidified withsulfoaluminate cement combined with MSWI bottom ash[J].Case Studies in Construction Materials, 2023, 19: e02481.
[132] Feng D, Wang J, Wang Y, et al.Experimental study on solidification/stabilisation of high-salt sludge by alkali-activated GGBS and MSWI bottom ash cementitious materials[J].Case Studies in Construction Materials, 2023,19: e02417.
[133] Liang S, Wang Y, Feng D.Experimental study on strength and dry-wet cycle characteristics of South China coastal soft soil solidified by cement collaborating sand particles[J].Applied Sciences, 2023,13(15): 8844.
[134] 梁仕华, 曾伟华.干湿循环条件下水泥粉煤灰固化南沙淤泥土试验研究[J].工业建筑, 2018,48(7): 83-86.(Liang Shihua, Zeng Weihua.Experimental study of nansha silt soil reinforced with cement and fly-ash during wetting-drying cycles[J].Industrial Construction, 2018, 48(7): 83-86.(in Chinese))
[135] 梁仕华, 王杰, 王羽心, 等.碱激发矿粉协同垃圾焚烧飞灰固化浓缩液污泥试验研究[J].土木工程学报, 2023, 56(增1): 75-89.(Liang Shihua, Wang Jie, Wang Yuxin, et al.Experimental study on solidification of concentrated solution sludge by alkali-activated GGBS and MSWI fly ash cementitious materials[J].China Civil Engineering Journal, 2023, 56(Supp.1): 75-89.(in Chinese))
[136] 梁仕华, 冯德銮.硫铝酸盐水泥协同垃圾焚烧副产物固化浓缩液污泥的强度和水稳定性试验研究[J].岩土力学, 2022,43(6): 1453-1468.(Liang Shihua, Feng Deluan.Experimental study on strength and water stability of concentrated solution sludge solidified with sulfoaluminate cement collaborating waste incineration by-products[J].Rock and Soil Mechanics, 2022, 43(6): 1453-1468.(in Chinese))
[137] 梁仕华, 陈俊涛, 林焕生, 等.水泥固化淤泥废弃土作为填土材料的试验研究[J].广东工业大学学报, 2020,37(2): 102-106.(Liang Shihua, Chen Juntao, Lin Huansheng, et al.An experimental study of using cement stabilized silt as filling material[J].Journal of Guangdong University of Technology, 2020,37(2): 102-106.(in Chinese))
[138] 林焕生.水泥与纤维复合改良淤泥废弃土的强度与稳定性试验研究[D].广州: 广东工业大学, 2019.(Lin Huansheng.Experimental study on the strength and stability of cement and fiber composite improved silt waste soil[D].Guangzhou: Guangdong University of Technology, 2019.(in Chinese))
[139] 武思结.碱激发矿粉/粉煤灰固化华南软土力学性能试验研究[D].广州: 广东工业大学, 2022.(Wu Sijie.Experimental study on mechanical properties of Alkali activated mineral powder/fly ash solidified soft soil in South China[D].Guangzhou: Guangdong University of Technology, 2022.(in Chinese))
[140] 王蒙.水泥基外掺剂固化锌污染淤泥的工程性质研究[D].广州: 广东工业大学, 2016.(Wang Meng.Research on the engineering properties of cement-based external admixtures for solidifying zinc-contaminated sludge[D].Guangzhou: Guangdong University of Technology, 2016.(in Chinese))
[141] 周世宗.聚丙烯纤维加筋水泥土的强度特性试验研究[D].广州:广东工业大学, 2017.(Zhou Shizong.Experimental study on the strength properties of polypropylene fiber reinforced cement soil[D].Guangzhou: Guangdong University of Technology, 2017.(in Chinese))
[142] 刘亮.水洗-药剂复合处理后的飞灰作添加剂固化软土试验研究[D].广州: 广东工业大学, 2018.(Liu Liang.Experimental study on using wash with water-fly ash after chemical compound treatment as additive to solidify soft soil[D].Guangzhou: Guangdong University of Technology, 2018.(in Chinese))
[143] 肖雪莉.硫铝酸盐水泥协同垃圾焚烧副产物固化渗滤液污泥的强度特性试验研究[D].广州: 广东工业大学, 2023.(Xiao Xueli.Experimental study on strength characteristics of leachate sludge solidified with sulphoaluminate cement collaborating waste incineration by-products[D].Guangzhou: Guangdong University of Technology, 2023.(in Chinese))
[144] 陈俊涛.垃圾填埋场渗滤液污泥的固化/稳定化试验研究[D].广州: 广东工业大学, 2020.(Chen Juntao.Experimental study on solidification/stabilization of landfill leachate sludge[D].Guangzhou: Guangdong University of Technology, 2020.(in Chinese))
[145] 杨秀莲.磷酸镁水泥协同建筑垃圾固化净水余泥的试验研究[D].广州: 广东工业大学, 2023.(Yang Xiulian.Experimental study on the strength of magnesium phosphate cement cooperating with construction waste to solidify water purification sludge[D].Guangzhou: Guangdong University of Technology, 2023.(in Chinese))
[146] He J, Feng X, Zhou L, et al.Utilization of soda residue and ground granulated blast furnace slag to stabilize/solidify sewage sludge in leachate soaking environment[J].Water Science and Engineering, 2021, 14(4): 304-313.
[147] Wang D, Chen Z, Gao X.Sustainable improvement of magnesium oxychloride cement solidified waste sludge with fly-ash inclusion[J].Journal of Materials in Civil Engineering, 2022, 34(12): 4022317.
[148] ASTM International Standard test methods for wetting and drying compacted soil-cement mixtures (ASTMD559/D559M-15.)[S].West Conshohocken, PA: 2015.
[149] Mehenni A.Comportement hydromécanique et érosion des sols fins traités[D].Université de Lorraine, 2015.
[150] ASTM.D560/D560M-16.Standard test methods for freezing and thawing compacted soil-cement mixtures[S].West Conshohocken, PA: ASTM International, 2016.
[151] Xiong F, Xing H, Li H.Experimental study on the effects of multiple corrosive ion coexistence on soil-cement characteristics[J].Soils and Foundations, 2019,59(2): 398-406.
[152] 韩鹏举, 白晓红.无机化合物对水泥土腐蚀的作用机理及试验[J].腐蚀与防护, 2013,34(5): 381-384.(Han Pengju, Bai Xiaohong.Experiment and chemical mechanism of corrosive action of inorganic compounds on cemented soil[J].Corrosion & Protection, 2013,34(5): 381-384.(in Chinese))
[153] Kitazume M, Nakamura T, Terashi M, et al.Laboratory tests on long-term strength of cement treated soil[M].Grouting and Ground Treatment, 2003:586-597.
[154] 董猛荣, 杨俊杰, 王曼, 等.海相软土场地水泥土劣化机理室内试验研究[J].中国海洋大学学报(自然科学版), 2020,50(1): 93-103.(Dong Mengrong, Yang Junjie, Wang Man, et al.Laboratory study on deterioration mechanism of cement soil in marine clay sites[J].Journal of Ocean University of China (Natural Science Edition), 2020, 50(1): 93-103.(in Chinese))
[155] Shihata S A, Baghdadi Z A.Long-term strength and durability of soil cement[J].Journal of Materials in Civil Engineering, 2001, 13(3): 161-165.
[156] Hara H,Suetsugu D, Hayashi S, et al.Calcium leaching properties of lime-treated soil by infiltration of tidal river water[A] // The Eighteenth International Offshore and Polar Engineering Conference[C].Vancouver: International Ocean and Polar Engineering Conference, 2008.
[157] 邢皓枫, 张好, 李浩铭.高含盐水泥土的力学特性及微观结构研究[J].水文地质工程地质, 2021,48(3): 102-109.(Xing Haofeng, Zhang Hao, Li Haoming.Mechanical characteristics and microstructure of salt-rich cement-soil[J].Hydrogeology & Engineering Geology, 2021, 48(3): 102-109.(in Chinese))
[158] 闫楠, 杨俊杰, 刘强, 等.海水环境下水泥土强度衰减过程室内试验研究[J].土木工程学报, 2017,50(11): 115-124.(Yan Nan, Yang Junjie, Liu Qiang, et al Laboratory test on strength deterioration process of soil cement in seawater environment[J].China Civil Engineering Journal, 2017,50(11): 115-124.(in Chinese))
[159] 李梦幻.海水入侵对水泥土抗压强度的影响规律及细观机制研究[D].南宁: 广西大学, 2021.(Li Mengmeng.Study on the influence of seawater intrusion on the compressive strength of cement and soil and its microscopic mechanism[D].Nanning: Guangxi University, 2021.(in Chinese))
[160] 张成琳, 刘清风.钢筋混凝土中氯盐和硫酸盐耦合侵蚀研究进展[J].材料导报, 2022,36(1): 69-77.(Zhang Chenglin, Liu Qingfeng.Coupling erosion of chlorides and sulfates in reinforced concrete: a review[J].Materials Review, 2022, 36(1): 69-77.(in Chinese))
[161] Aziz M, Sheikh F N, Qureshi M U, et al.Experimental study on endurance performance of lime and cement-treated cohesive soil[J].KSCE China Civil Engineering Journal, 2021, 25(9): 3306-3318.
[162] Roshan M J, Rashid A S B A,Hezmi M A B, et al.Evaluation of cement stabilised residual soil on macro- and micro-scale for road construction[J].Journal of Engineering and Applied Science, 2022, 69(1): 1-22.
[163] 宁宝宽, 金生吉, 陈四利.侵蚀性离子对水泥土力学特性的影响[J].沈阳工业大学学报, 2006(2): 178-181.(Ning Baokuan, Jin Shengji, Chen Sili.Influence of erosive ions on mechanical properties of cemented soil[J].Journal of Shenyang University of Technology, 2006(2): 178-181.(in Chinese))
[164] Liang S, Wang Y, Feng D.Experimental study on strength and dry-wet cycle characteristics of South China coastal soft soil solidified by cement collaborating sand particles[J].Applied Sciences, 2023, 13(15): 8844.
[165] 张经双, 段雪雷, 吴倩云, 等.氯盐—干湿循环耦合作用下水泥土的力学性能[J].建筑材料学报, 2021,24(3): 508-515.(Zhang Jingshuang, Duan Xuelei, Wu Qianyun, et al.Mechanical properties of cement soil subject to coupling effect of chloride salt solution and dry-wet cycles[J].Journal of Building Materials, 2021, 24(3): 508-515.(in Chinese))
[166] 冯德銮.土体介质多尺度耦合力学特性的理论与试验研究[D].广州:华南理工大学, 2016.(Feng Deluan.Theoretical and experimental research on multi-scale coupling mechanical properties of soil media[D].Guangzhou: South China University of Technology, 2016.(in Chinese))
[167] Chen Q, Yu R,Gaoliang T, et al.Microstructure, strength and durability of nano-cemented soils under different seawater conditions: laboratory study[J].Acta Geotechnica, 2023, 18(3): 1607-1627.
[168] Tang C, Cui Y, Shi B, et al.Desiccation and crackingbehaviour of clay layer from slurry state under wetting-drying cycles[J].Geoderma, 2011, 166(1): 111-118.
[169] Jalali J, Noorzad R.Discrete fiber reinforcement efficiency in the mechanical properties and wet-dry performance of fat clay treated with industrial sewage sludge ash[J].Construction and Building Materials, 2021, 284: 122739.
[170] 宋鑫, 崔自治, 刘慕宸.干湿循环作用下盐分对水泥土性能的影响研究[J].建筑科学, 2022,38(1): 70-76.(Song Xin, Cui Zhizhi, Liu Muchen.Study of the effect about salt act on the properties of cement-soil under dry-wet cycles[J].Building Science, 2022, 38(1): 70-76.(in Chinese))
[171] 宁宝宽,陈四利,刘斌.冻融循环对水泥土力学性质影响的研究[J].低温建筑技术,2004(5):10-12.(Ning Baokuan, Chen Sili, Liu Bin.Influence of freezing and thawing cycles on mechanical properties of cemented soil[J].Low Temperature Architecture Technology, 2004(5): 10-12.(in Chinese))
[172] 郑郧,马巍,邴慧.冻融循环对土结构性影响的试验研究及影响机制分析[J].岩土力学, 2015, 36(5): 1282-1287.(Zheng Yun, Ma Wei, Bing Hui.Impact of freezing and thawing cycles on structure of soils and its mechanism analysis by laboratory testing[J].Rock and Soil Mechanics, 2015, 36(5): 1282-1287.(in Chinese))
[173] 陈四利,史建军,于涛,等.冻融循环对水泥土力学特性的影响[J].应用基础与工程科学学报,2014,22(2):343-349.(Chen Sili, Shi Jianjun, Yu Tao, et al.Effect of freeze-thaw cycle on mechanical properties of cement and soil[J].Journal of Basic Science and Engineering, 2014, 22(2): 343-349.(in Chinese))
[174] 王天亮.冻融条件下水泥及石灰路基改良土的动静力特性研究[D].北京: 北京交通大学, 2011.(Wang Tianliang.Research on dynamic and static force characteristics of cement and lime roadbed improved soil under freeze-thaw condition[D].Beijing: Beijing Jiaotong University, 2011.(in Chinese))
[175] 孙韬.冻融循环对水泥土三轴强度指标与裂隙演化规律的影响[J].长江科学院院报,2021,38(8):127-132.(Sun Tao.Influence of freeze-thaw cycles on mechanical properties and fracture evolution of cement-soil[J].Journal of Yangtze River Scientific Research Institute, 2021, 38(8): 127-132.(in Chinese))
[176] Shibi T, Kamei T.Effect of freeze-thaw cycles on the strength and physical properties of cement-stabilised soil containing recycled bassanite and coal ash[J].Cold Regions Science and Technology, 2014, 106: 36-45.
[177] Mardani-Aghabaglou A, Kallpcllar İ, Sezer G İ, et al.Freeze-thaw resistance and chloride-ion penetration of cement-stabilized clay exposed to sulfate attack[J].Applied Clay Science, 2015, 115: 179-188.
[178] 陶攀.干湿—冻融循环下水泥固化淤泥土的力学性能与裂隙发育特征[J].硅酸盐通报,2021,40(1): 34-40.(Tao Pan.Mechanical properties and crack development characteristics of cement-solidified mud soil under dry-wet-freeze-thaw cycles[J].Bulletin of the Chinese Ceramic Society, 2021, 40(1): 34-40.(in Chinese))
[179] Li Q, Chen J, Shi Q, et al.Macroscopic and microscopic mechanisms of cement-stabilized soft clay mixed with seawater by adding ultrafine silica fume[J].Advances in Materials Science and Engineering, 2014, 1(9): 1-13.
[180] 杨军, 刘飞禹, 朱凯.纤维加筋水泥土的静动力剪切特性研究[J].地下空间与工程学报, 2021, 17(增2): 563-569.(Yang Jun, Liu Feiyu, Zhu KiaResearch on static and dynamic shear strength properties of fiber reinforced cement soil[J].Chinese Journal of Underground Space and Engineering, 2021, 17(Supp.2): 563-569.(in Chinese))
