论文（近五年）

[1] Fu R C, Wang H N, Jiang M J(蒋明镜). Exact analytical solution for deep tunnels in viscoelastic–plastic rock considering the actual loading path[J]. Applied Mathematical Modelling, 2024, 128: 370-391. 

[2] Jiang M J(蒋明镜), Huang J J, Wang H N. An analytical model and its application in reliability analysis of formation failure during hydrate production in deep-sea areas[J]. KSCE Journal of Civil Engineering, 2024, 28: 74-92. 

[3] Jiang M J(蒋明镜), Lu Y X, Wang H N, Chen Y R. Multi-field coupling analysis of mechanical responses in methane hydrate exploitation with a practical numerical approach combining T+H with DEM[J]. Computers and Geotechnics, 2024, 166: 105978. 

[4] Huang J J, Jiang M J(蒋明镜), Wang H N. A time-dependent analytical model with hydraulic-mechanical coupling for wellbore stability in hydrate exploitation[J]. Marine Georesources and Geotechnology, 2023, 41(12): 1354-1369.

[5] Li W H, Zhu H T, Jiang M J(蒋明镜), Xu J T, Hu W. The stability of the submarine slope due to hydrate reformation[J]. Marine Georesources and Geotechnology, 2023, 41(12): 1334-1341.

[6] He Y, Zhang G Q, Chen J, Liu S H, Jiang M J(蒋明镜). Influence of C-S-Hs-PCE and Na2SO4 on the fluidity and mechanical performance of cement-lithium slag binder[J]. Materials and Structures, 2023, 56: 158. 

[7] He Y, You C Y, Jiang M J(蒋明镜), Liu S H, Shen J A, Hooton R D. Rheological performance and hydration kinetics of lithium slag-cement binder in the function of sodium sulfate[J]. Journal of Thermal Analysis and Calorimetry, 2023, 148: 11653-11668. 

[8] Zhang A, Jiang M J(蒋明镜), Wang D, Li Q P. A bounding surface plasticity model for methane hydrate-bearing sediments in deep seabed[J]. Computers and Geotechnics, 2023, 163: 105720.

[9] Zhou Z H, Wang H N, Jiang M J(蒋明镜). Micromechanical mechanism-based anisotropic strength criteria for regularly arranged elliptical particle assembly[J]. Acta Geotechnica, 2023: online.

[10] Jiang M J(蒋明镜), Li G S, Lei H Y, Li Z Y. The compressive behaviours and microscopic characteristics of deep-sea soft soil with deionized or sea water[J]. Marine Georesources and Geotechnology, 2023, online.

[11] Xi B L, Jiang M J(蒋明镜), Mo P Q, Yang J Q, Zhang Z H. Bearing capacity of lunar soil ground under extraterrestrial environmental effects[J]. Computers and Geotechnics, 2023, 165: 105923.

[12] Liu A S, Kwok C, Li W, Jiang M J(蒋明镜). Strain rate effects on intact deep-sea sediments under different confining pressures and overconsolidation ratios[J]. Engineering Geology, 2023, 327: 107357.

[13] Zhang N, Wang H N, Jiang M J(蒋明镜). A mechanistic model for porosity and permeability in deformable hydrate-bearing sediments with various hydrate growth patterns[J]. Acta Geotechnica, 2023: online.

[14] Gu W Y, Xu X, Jiang M J(蒋明镜), Yao W J. Effects of spacing ratio on vortex-induced vibration of twin tandem diamond cylinders in a steady flow[J]. Physics of Fluids, 2023, 35(4): 043604.

[15] Zhang A, Jiang M J(蒋明镜), Wang D. Effect of fabric anisotropy on the cyclic liquefaction of sands: Insight from DEM simulations[J]. Computers and Geotechnics, 2023, 155: 105188.

[16] Jiang M J(蒋明镜), Xi B L, Lei H Y, Guo Z Y. FEM and experimental analysis of lunar soil excavation test[J]. KSCE Journal of Civil Engineering, 2023: 27(8): 3240-3254.

[17] Zhang A, Dafalias Y F, Jiang M J(蒋明镜). A bounding surface plasticity model for cemented sand under monotonic and cyclic loading[J]. Géotechnique, 2023, 73(1): 44-61.

[18] Zeng G S, Wang H N, Jiang M J(蒋明镜). Analytical stress and displacement of twin noncircular tunnels in elastic semi-infinite ground[J]. Computers and Geotechnics, 2023, 160: 105520. （SCI收录，WOS收录号：000444362800017，Web of Science核心合集索引频次44，SCI索引频次42。EI收录号：20232114118647）[19] Zhang A, Jiang M J(蒋明镜), Wang D, Li Q P. Three-dimensional DEM investigation of mechanical behaviors of grain-cementing type methane hydrate-bearing sediment[J]. Acta Geotechnica, 2023, 18: 6371-6394.

[20] Wei F R, Wang H N, Zeng G S, Jiang M J(蒋明镜). Seepage flow around twin circular tunnels in anisotropic ground revealed by an analytical solution[J]. Underground Space, 2023, 10: 1-14. 

[21] Wei F R, Wang H N, Zeng G S, Jiang M J(蒋明镜). Analytical solution to the seepage field of two parallel noncircular tunnels in permeable anisotropic ground[J]. KSCE Journal of Civil Engineering, 2022, 26(12): 5328-5341.

[22] Hu T Wang H N, Jiang M J(蒋明镜). Analytical approach for the fast estimation of time-dependent wellbore stability during drilling in methane hydrate-bearing sediment[J]. Journal of Natural Gas Science and Engineering, 2022, 99: 104422.

[23] Zhang N, Wang H N, Jiang M J(蒋明镜). A mesoelastic-plastic damage model for hydrate-bearing sediments with various hydrate-growth patterns[J]. Ocean Engineering, 2022, 266(3): 112919. 

[24] Wang H N, Song F, Zhao T, Jiang M J(蒋明镜). Solutions for lined circular tunnels sequentially constructed in rheological rock subjected to non-hydrostatic initial stresses[J]. European Journal of Environmental and Civil Engineering, 2022, 26(5): 1834-1866. 

[25] Zeng G S, Wang H N, Jiang M J(蒋明镜). Analytical solutions of noncircular tunnels in viscoelastic semi-infinite ground subjected to surcharge loadings[J]. Applied Mathematical Modelling, 2022, 102: 492-510. 

[26] Jiang M J(蒋明镜), Niu M Y, Zhang F G, Wang H N, Liao Z W. Instability analysis of jointed rock slope subject to rainfall using DEM strength reduction technique[J]. European Journal of Environmental and Civil Engineering, 2022, 26(10): 4664-4686.

[27] Guo Y F, Wang H N, Jiang M J(蒋明镜). Efficient iterative analytical model for underground seepage around multiple tunnels in semi-infinite saturated media[J]. Journal of Engineering Mechanics, 2021, 147(11): 04021101.

[28] Zeng G S, Wang H N, Wu L, Jiang M J(蒋明镜). A generalized analytical model for mechanical responses of rock during multiple-tunnel excavation in viscoelastic semi-infinite ground[J]. International Journal of Geomechanics, 2021, 21(11): 04021202. 

[29] Yang Y, Zhang C H, Wang R, Jiang M J(蒋明镜), Tian Y H. Engineering properties of the compressibility and crushing characteristics of transitional soils mixed with silicate and carbonate sands[J]. Engineering Geology, 2021, 292(4): 106246.

[30] Gao X, Wang H N, Jiang M J(蒋明镜). Analytical solutions for the displacement and stress of lined circular tunnel subjected to surcharge loadings in semi-infinite ground[J]. 

[31] Liu J, Wang S, Jiang M J(蒋明镜), Wu W. A state-dependent hypoplastic model for methane hydrate-bearing sands[J]. Acta Geotechnica, 2021, 16(1): 77-91. 

[32] Zhang A, Jiang M J(蒋明镜), Du W H. Three-dimensional DEM investigation of the stress-dilatancy relation of grain-cementing type methane hydrate-bearing sediment[J]. Petroleum, 2021, 7(4): 477-484.

[33] Yao Y X, Guo Z H, Zeng J M, Li D L, Lu J S, Liang D Q, Jiang M J(蒋明镜). Discrete element analysis of hydraulic fracturing of methane hydrate-bearing sediments[J]. Energy and Fuels, 2021, 35(8): 6644-6657. 

[34] Zhang F G, Jiang M J(蒋明镜). Do the normal compression lines of cemented and uncemented geomaterials run parallel or converge to each other after yielding[J]. European Journal of Environmental and Civil Engineering, 2021,  25(2): 368-386. 

[35] Zhou Z H, Wang H N, Jiang M J(蒋明镜). Macro- and micro-mechanical relationship of the anisotropic behaviour of a bonded ellipsoidal particle assembly in the elastic stage[J]. Acta Geotechnica, 2021, 16(12): 3899-3921. [36] Jiang M J(蒋明镜), Sun R H, Arroyo M, Du W H. Salinity effects on the mechanical behaviour of methane hydrate bearing sediments: A DEM investigation[J]. Computers and Geotechnics, 2021, 133: 104067. [150] Lei H Y, Liu M, Feng S X, Liu J J, Jiang M J(蒋明镜). Cyclic behavior of Tianjin soft clay under intermittent combined-frequency cyclic loading[J]. International Journal of Geomechanics, 2020, 20(10): 04020186.

[37] Zeng G S, Wang H N, Jiang M J(蒋明镜), Luo L S. Analytical solution of displacement and stress induced by the sequential excavation of noncircular tunnels in viscoelastic rock[J]. International Journal of Rock Mechanics and Mining Sciences, 2020, 134: 104429.

[38] Chen Y M, Zhang L L, Liao C C, Jiang M J(蒋明镜), Peng M. A two-stage probabilistic approach for the risk assessment of submarine landslides induced by gas hydrate exploitation[J]. Applied Ocean Research, 2020, 99(1): 102158. 

[39] Wang H N, Gao X, Wu L, Jiang M J(蒋明镜). Analytical study on interaction between existing and new tunnels parallel excavated in semi-infinite viscoelastic ground[J]. Computers and Geotechnics, 2020, 120, 103385.

[40] Che N, Wang H N, Jiang M J(蒋明镜). DEM investigation of rock/bolt mechanical behaviour in pull-out tests[J]. Particuology, 2020, 53: 10-27.

[41] Jiang M J(蒋明镜), Zhang A, Shen Z F. Granular soils: From DEM simulation to constitutive modeling[J]. Acta Geotechnica, 2020, 15(7): 1723-1744.

[42] Lei H Y, Wang L, Jia R, Jiang M J(蒋明镜), Zhang W D, Li C Y. Effects of chemical conditions on the engineering properties and microscopic characteristics of Tianjin dredged fill[J]. Engineering Geology, 2020, 269:105548.

[43] Lei H Y, Xu Y G, Jiang M J (蒋明镜), Jiang Y. Deformation and fabric of soft marine clay at various cyclic load stages[J]. Ocean Engineering, 2020, 195: 106757.

[44] Guo Z Y , Wang H N , Jiang M J(蒋明镜). Elastoplastic analytical investigation of wellbore stability for drilling in methane hydrate-bearing sediments[J]. Journal of Natural Gas Science and Engineering, 2020, 79: 103344. 

[45] Jiang M J(蒋明镜), Liu J, Shen Z F. DEM simulation of grain-coating type methane hydrate bearing sediments along various stress paths[J]. Engineering Geology, 2019, 261: 105280.

[46] Shen Z F, Jiang M J (蒋明镜), Wang S N. Static and kinematic damage characterization in structured sand[J]. Acta Geotechnica, 2019, 14(5): 1403-1421.

[47] Zeng G S, Wang H N, Jiang M J(蒋明镜). Analytical study of ground responses induced by the excavation of quasirectangular tunnels at shallow depths[J]. International Journal for Numerical and Analytical Methods in Geomechanics, 2019, 43(13): 2200-2223.

[48] Jiang M J(蒋明镜), Xi B L, De Blasio F V, Lei H Y, Sun D A. Physical model tests of the bearing behavior of tongji-1 lunar soil simulant[J]. Journal of Aerospace Engineering, 2019, 32(2): 04018150.

[49] Wang H N, Chen X P, Jiang M J(蒋明镜), Guo Z Y. Analytical investigation of wellbore stability during drilling in marine methane hydrate-bearing sediments[J]. Journal of Natural Gas Science and Engineering, 2019, 68, 102885.

[50] Shen Z F, Gao F, Wang Z, Jiang M J(蒋明镜). Evolution of mesoscale bonded particle clusters in cemented granular material[J]. Acta Geotechnica, 2019, 14(6): 1653-1667.

[51] Sheng W G, Zhao T, Dai F, Jiang M J(蒋明镜), Zhou G G D. DEM analyses of rock block shape effect on the response of rockfall impact against a soil buffering layer[J]. Engineering Geology, 2019, 249: 60-70.

[52] Wang H N, Jiang M J(蒋明镜), Zhao T, Zeng G S. Viscoelastic solutions for stresses and displacements around non-circular tunnels sequentially excavated at great depths[J]. Acta Geotechnica, 2019, 14(1): 111-139.

[53] Shen Z F, Jiang M J(蒋明镜), Fang N, Zhou F. A damage evolution law enriched by microscopic mechanisms for structured sand in mechanical loading[J]. Acta Geotechnica, 2019, 14(6): 1905-1924. 

[54] 王琪, 王华宁, 蒋明镜. 水-岩化学作用对砂岩力学特性影响的三维离散元分析[J]. 岩石力学与工程学报, 2023, 42(S1): 3344-3354. 

[55] 蒋明镜, 刘阿森, 李光帅. 南海北部陆坡区深海软土宏微观特征与力学特性研究[J]. 岩土工程学报, 2023, 45(3): 618-626.

[56] 王思远, 蒋明镜, 李承超, 张旭东. 三轴剪切条件下胶结型深海能源土应变局部化离散元模拟分析[J]. 岩土力学, 2023, 44(11): 3307-3317.

[57] 蒋明镜, 石安宁, 奚邦禄, 黄伟, 吕雷. 火星探测器着陆试验场地研造[J]. 岩土工程学报, 2023, 45(4): 826-832.

[242] 蒋明镜, 张鑫蕊, 司马军, 姜朋明, 李瑞林, 刘一飞. 壤基材料加筋月壤技术在月球基地建设中的应用[J]. 苏州科技大学学报（自然科学版）, 2023, 40(3): 11-20+53.

[58] 黄佳佳, 蒋明镜, 王华宁. 基于流固耦合的含水合物地层井壁稳定非稳态解析模型[J]. 同济大学学报（自然科学版）, 2023, 51(7): 1033-1043+1053. 

[59] 雷华阳, 许英刚, 蒋明镜, 刘旭, 缪姜燕. 动渗耦合作用下软黏土渗透系数演化机制分析[J]. 岩土力学, 2022, 43(10): 2665-2674.

[60] 薄英鋆, 王华宁, 蒋明镜, 车纳. 隧道力学状态离散元模拟中的粒径效应[J]. 地下空间与工程学报, 2022, 18(5): 1471-1480. 

[61] 王午阳, 王华宁, 蒋明镜. 基于解析解和新准则的深埋隧道断面形状优化[J]. 力学季刊, 2022, 43(2): 227-238. 

[62] 申志福, 孙天佑, 白宇帆, 蒋明镜, 周峰. 基于电镜成像原理的黏土微结构参数提取方法[J]. 岩土工程学报, 2021, 43(5): 933-939.

[63] 付睿聪, 王华宁, 蒋明镜, 杨永恒. 考虑加卸载路径的深埋水工隧道弹塑性解析解[J]. 岩石力学与工程学报, 2021, 40(S2): 3174-3181.

[64] 胡伟, 朱海涛, 蒋明镜, 李文昊. 考虑能源土渗透性影响的水合物分解超孔压特性研究[J]. 岩土力学, 2021, 42(10): 2755-2762+2772.

[65] 李涛, 蒋明镜, 李立青. 非饱和重塑黄土应变控制等应力比试验三维离散元分析[J]. 水利与建筑工程学报, 2021, 19(2): 36-41.

[66] 蒋明镜, 沈振义, 刘俊, 杨涛, 谭亚飞鸥. 含微生物气泡高饱和砂土循环三轴剪切CFD-DEM模拟[J]. 地震工程学报, 2021, 43(2): 353-360.

[67] 申志福, 高峰, 蒋明镜, 王志华, 刘璐, 高洪梅. 黏土片与球状颗粒间范德华作用的简便计算方法[J]. 岩土工程学报, 2021, 43(4): 776-782.

[68] 郭玉峰, 王华宁, 蒋明镜. 水下浅埋双孔平行隧道渗流场的解析研究[J]. 岩土工程学报, 2021, 43(6): 1088-1096.

[69] 蒋明镜, 陈意茹, 卢国文. 一种实用型深海能源土多场耦合离散元数值方法[J]. 岩土工程学报, 2021, 43(8): 1391-1398. 

[70] 王华宁, 郭振宇, 高翔, 蒋明镜. 含水合物地层井壁力学状态的弹塑性解析分析[J]. 同济大学学报（自然科学版）, 2020, 48(12): 1696-1706.

[71] 蒋明镜, 孙若晗, 李涛, 杨涛, 谭亚飞鸥. 微生物处理砂土不排水循环三轴剪切CFD-DEM模拟[J]. 岩土工程学报, 2020, 42(1): 20-28.

[72] 胡韬, 王华宁, 郭振宇, 蒋明镜. 深海能源土流变和非稳态多场影响的井壁稳定分析[J]. 岩石力学与工程学报, 2020, 39(S1): 3206-3216.

[73] 蒋明镜, 王华宁, 李光帅, 廖优斌, 陈有亮, 卫超群. 深部复合岩体隧道开挖离散元模拟[J]. 岩土工程学报, 2020, 42(S2): 20-25.

[74] 薄英鋆, 王华宁, 蒋明镜. 深部节理岩体开挖卸荷动力破坏机制的离散元研究[J]. 岩土工程学报, 2020, 42(S2): 196-201.

[75] 蒋明镜, 庞红星, 王华宁, 陈有亮, 廖优斌. 复合岩体中深埋隧道开挖破坏机理离散元分析[J]. 地下空间与工程学报, 2020, 16(S2): 702-709.

[76] 蒋明镜, 李光帅, 曹培, 吴晓峰. 用于土体宏微观力学特性测试的微型三轴仪研制[J]. 岩土工程学报, 2020, 42(S1): 6-10.

[77] 蒋明镜, 吕雷, 石安宁, 曹培, 吴晓峰. 适用于显微CT扫描的微型动三轴仪研制与试验验证[J]. 岩土工程学报, 2020, 42(S1): 214-218.

[78] 蒋明镜, 吕雷, 李立青, 黄伟. TJ-M1模拟火壤承载特性的研究[J]. 岩土工程学报, 2020, 42(10): 1783-1789.

[79] 雷华阳, 郝琪, 冯双喜, 张雅杰, 蒋明镜. 不同温度模式下软黏土孔隙水压力变化规律与应力-应变特性研究[J]. 岩石力学与工程学报, 2020, 39(11): 2308-2318.

[80] 李涛, 蒋明镜, 孙若晗. 多种应力路径下结构性土胶结破损演化规律离散元分析[J]. 岩土工程学报, 2020, 42(6): 1159-1166.

[81] 蒋明镜, 卢国文, 李涛. 基于胶结破损机理的非饱和结构性黄土本构模型[J]. 天津大学学报（自然科学与工程技术版）, 2020, 53(3): 243-251.

著作

[1] 蒋明镜, 申志福. 深海能源土离散元数值分析[M].上海, 中国: 同济大学出版社, 2024.

[2] Jiang M J(蒋明镜), Fang L, Malcolm B. Geomechanics and geotechnics: from micro to macro[M]. Florida, USA: CRC Press, 2010. 

2001：

[3] Oka F, Jiang M J(蒋明镜), Higo Y. Effect of transport of pore water on strain localization analysis of fluid-saturated strain gradient dependent viscoplastic geomaterial[M]// Dyskin A V, Muhlhaus H B, Pasternak E. Bifurcation and Localisation Theory in Geomechanics. Florida, USA: CRC Press, 2001, 77-83.