师资队伍
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    兼职教授
    蒋明镜
    时间:2021年01月14日 11:52 点击:

蒋明镜,男,1965年生,江苏如皋人,博士,教授,博士生导师


19861993年河海大学获工学学士学位、硕士研究生(提前免试攻博),1996年南京水利科学研究院获工学博士学位。1998年日本大阪土质试验研究所(现日本地域地盘环境研究所)特别研究员,19982000年日本京都大学特别研究员,20002003年加拿大拉瓦勒大学博士后,20032004年英国曼彻斯特大学博士后,20042006年英国诺丁汉大学博士后,2006年至今,在同济大学从事教学科研工作,2018年至今,在天津大学建工学院从事教学科研工作,任副院长。


研究方向

[1]能源与环境岩土工程;

[2]宏微观土力学与岩土工程数值分析方法;

[3]软土地下工程与岩土边坡工程;

[4]深海能源土(含可燃冰土体)工程;

[5]太空土(月球土壤等)工程。

科研情况

完成国家自然科学基金、欧共体、军工类等项目共30余项。现主持国家自然科学基金重点项目一项,重大项目课题一项,国家重点研发计划子课题一项。

成果及荣誉

编著2部,发表学术论文546篇,其中ESI高被引论文2篇,SCI期刊论文144篇、EI论文172多篇,SCl引用近2000多次,2篇发表在国际著名岩土力学SCI源期刊《Computers and Geotechnics》的论文在Web of science被引次数排名中长期位列本刊第一和第二,并被英国帝国理工大学Catherine O'Sullivan2011年出版的离散单元法学术专著收录,分别命名为蒋氏抗转动模型和蒋氏压缩方法。授权专利9项,软件著作权41项(其中美国授权4项)2010年起出任国际土力学与岩土工程协会TC105委员会副主席(蝉联),2010年获国家自然科学杰出青年基金,2014年入选国家百千万人才工程。国家自然科学基金工材部咨询委员会专家、水利囗会评专家、国家自然科学奖会评专家,国家有突出贡献的中青年专家,获国务院特贴。2005年获大禹水利科学技术三等奖,2009年获高等学校科学研究优秀成果奖-自然科学二等奖(排名第一),2015年获河南省交通运输科学技术一等奖(排名第三)。第二十二届黄文熙讲座人,2019年入选Elsevier公布的中国高被引用作者。


学术兼职

国外:

[1] Computers and Geotechnics编委,2015

[2] Granular Matter终身编委,2013

[3] Transportation Geotechnics编委,2013

[4] Granular Matter特邀主编,2010

[5] Frontiers of Architecture and Civil Engineering in China (FAC)编委,2009

[6]国际土力学与岩土工程协会TC105委员会(宏微观岩土力学)副主席,2010

[7] International Symposium on Geomechanics and Geotechnics: From Micro to Macro (IS-Shanghai2010)学术委员会主席,2010

[8] Association pour la Etude de la Micro Meacute;canique des Milieux Granulaires,(AEMMG)(国际颗粒材料微观力学专业委员会)委员,2009.

国内

[1]水利口会评专家

[2]国家自然科学奖会评专家

[3]国家自然科学基金工程与材料学部第七届专家咨询委员会成员,2017

[4]《水资源与水工程学报》编委,2015

[5]《岩石力学与工程学报》英文版特约荣誉编委,2014-2019

[6]《同济大学学报(自然科学版)》特约编委,2014

[7]《岩土力学》编委,2012

[8]《岩石力学与岩土工程学报》英文版常务编委,2012

[9]《岩石力学与岩土工程学报》编委,土力学与地基基础方向常务编委,2011

[10]《山东大学学报》编委,2011

[11]《岩土工程学报》编委,2008

[12]武汉大学水工岩石力学教育部重点实验室学术委员,2015

[13]四川大学岩土工程省重点实验室学术委员,2013

[14]天津城建大学岩土工程天津市重点实验室学术成员,2013

[15]水利学会岩土力学专业委员会副秘书长,2011

[16]岩石力学与工程学会工程安全与防护分会常务理事,2011

[17]土木工程学会土力学与岩土工程分会,非饱和土与特殊土委员会副主任,2011

[18]国家自然科学基金委员会评审专家,2012

[19]国家留学基金委员会评审专家,2012

[20]国家留学基金管理委员会评审专家,2011

[21]国家自然科学基金工程与材料科学部评审组专家,2008.

主讲课程

[1]岩土工程中的离散单元法

[2]宏微观土力学

[3]土力学

学习经历

[1] 1982.09-1986.07河海大学,水工结构工程,学士,导师:吴中如院士;

[2] 1991.09-1993.07河海大学,岩土工程(推荐直接攻博,百名硕士中的唯一),硕士,导师:姜朴教授;

[3] 1993.09-1996.09南京水利科学院,岩土工程,博士,导师:沈珠江。

工作经历

[1] 1986.09-1991.08江苏农学院水利系(现扬州大学),教师;

[2] 1996.09-2001.08,南京水利科学研究院,岩土工程工程师/高级工程师;

[3] 1998.02-1998.09,日本大阪土质试验研究所(现日本地域地盘环境研究所),岩土工程特别研究员;

[4] 1998.10-2000.04,日本京都大学,岩土工程特别研究员;

[5] 2000.08-2003.01,加拿大拉瓦勒大学,岩土工程博士后;

[6] 2003.02-2004.11,英国曼彻斯特大学,岩土力学博士后;

[7] 2004.12-2006.01,英国诺丁汉大学,岩土力学博士后;

[8] 2006.03-至今,同济大学土木学院地下建筑与工程系,教授;

[9] 2018.01-至今,天津大学建筑工程学院,教授;


代表性成果

297 Jiang M J(蒋明镜), Niu M Y, Zhang F G, Wang H N. Instability analysis of jointed rock slope subject to rainfall using DEM strength reduction technique. European Journal of Environmental and Civil Engineering, 2021: 1-23. (SCI收录, WOS收录号:, Web of Science核心合集索引频次0SCI索引频次0)

296 Jiang M J(蒋明镜), Tan, Yafeiou, Zhang, Fuguang, Sun, Ya, Lei Huayang. Distinct element modeling of rock fragmentation by TBM cutter. European Journal of Environmental and Civil Engineering, 2020. 24(12): 2010-2031. (SCI收录, WOS收录号: 000573069900007, Web of Science核心合集索引频次0SCI索引频次0)

295 Xi B L, Jiang M J(蒋明镜),Cui L 3D DEM analysis of soil excavation test on lunar regolith simulant. granular matter.2021, online(SCI收录, WOS收录号:, Web of Science核心合集索引频次0SCI索引频次0)

294 Jiang M J (蒋明镜), Zhang A, Shen Z F. Granular soils: from DEM simulation to constitutive modelling. Acta Geotechnica, 2020, 15(7): 1723-1744. (SCI收录,WOS收录号: 000540169000002, Web of Science核心合集索引频次0SCI索引频次0)

293 Zhang A, Jiang M J (蒋明镜), Thornton C. A coupled CFD-DEM method with moving mesh for simulating undrained triaxial tests on granular soils. Granular Matter, 2020, 22(1), 13. (SCI收录,WOS收录号: 000513560600002, Web of Science核心合集索引频次0SCI索引频次0)

292 Shen Z F, Gao F, Wang Z, Jiang M J(蒋明镜). Evolution of mesoscale bonded particle clusters in cemented granular material. Acta Geotechnica, 2019, 14(6): 1653-1667. (SCI收录,WOS收录号: 000513920200002, Web of Science核心合集索引频次1SCI索引频次1)

291 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. Acta Geotechnica, 2019, 14(6): 1905-1924. (SCI收录,WOS收录号: 000513920200002, Web of Science核心合集索引频次0SCI索引频次0)

290 Jiang, M J (蒋明镜), Zhang N, Cui L, Xi B L, Lei H Y, Wang X X. Estimation of mechanical parameters of Tongji-1 lunar soil simulant based on cone penetration test. European Journal of Environmental and Civil Engineering, 2019, published online. (SCI收录,WOS收录号:000491077500001, Web of Science核心合集索引频次0SCI索引频次0

289 Liu J, Jiang M J (蒋明镜). DEM simulation of coexistence type methane hydrate bearing sediments. Environmental Geotechnics, 2019, published online, ahead of print. (SCI源刊)

288 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. Engineering Geology, 2019, 261, 105280. (SCI收录,WOS收录号: 000496039100015, Web of Science核心合集索引频次1SCI索引频次1

287 Shen Z FJiang M J (蒋明镜) ,Wang, S N. Static and kinematic damage characterization in structured sand. Acta Geotechnica, 2019, 14(5): 1403-1421. (SCI收录,WOS收录号: 000488514500008, Web of Science核心合集索引频次1SCI索引频次1

286 Jiang M J (蒋明镜), Zhang A, Li T. Distinct element analysis of the microstructure evolution in granular soils under cyclic loading. Granular Matter, 2019, 21(2), 39. (SCI收录,WOS收录号: 000463864700002Web of Science核心合集索引频次4SCI索引频次4

285 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. Journal of Aerospace Engineering , 2019, 32(2), 04018150. (SCI收录,WOS收录号: 000457289700001Web of Science核心合集索引频次0SCI索引频次0

284 Miao L C, Wang F, Ye W M, Jiang M J(蒋明镜), Li J, Shi S B. Combined method limiting shrinkage-swelling behaviors of Huai An expensive soils. Environmental Geotechnics, 2019, accepted. (SCI源刊)记得关注更新

283 Xi B L, Jiang M J(蒋明镜), Cui L, Liu J, Lei H Y. Experimental verification on analytical models of lunar excavation. Journal of Terramechanics. 2019, 83:1-13. (SCI收录,WOS收录号: 000466054800001Web of Science核心合集索引频次1SCI索引频次1)

282 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. Acta Geotechnica, 2019, 14(1): 111-139. (SCI收录,WOS收录号: 000457431400008Web of Science核心合集索引频次6SCI索引频次6)

281 Jiang M J(蒋明镜), Xi B L, Lei H Y. Investigation of gravity effect on penetration resistance in Tongji-1 lunar regolith simulant by centrifuge tests. Advances in Space Research, 2018, 62(5): 945-956. (SCI收录,WOS收录号: 000445303600001Web of Science核心合集索引频次2SCI索引频次2)

280 Jiang M J(蒋明镜), Liu J, Kwok C Y, Shen Z F. Exploring the undrained cyclic behavior of methane-hydrate-bearing sediments using CFD–DEM. Comptes Rendus Mecanique, 2018, 346(9), 815-832. (SCI收录,WOS收录号: 000439861600002Web of Science核心合集索引频次3SCI索引频次3)

279 Che A L, Zhu R J, Jiang M J(蒋明镜). Dynamic Response of Lunar Soil Caused by Landing Impact. KSCE Journal of Civil Engineering, 2018, 11:4282-4292. (SCI收录,WOS收录号: 000450794800010Web of Science核心合集索引频次0SCI索引频次0)

278 Song F, Wang H N, Jiang M J(蒋明镜). Analytically-based simplified formulas for circular tunnels with two liners in viscoelastic rock under anisotropic initial stresses. Construction and Building Materials, 2018, 175: 746-767. (SCI收录,WOS收录号: 000434754500068Web of Science核心合集索引频次16SCI索引频次16)

277 Jiang, M. J(蒋明镜).Liao, Y. B.Wang, H. N.Sun, Y. Lei H Y. Distinct element modeling of rock fragmentation by TBM cutting. European Journal of Environmental and Civil Engineering, 2018,22:s79-s98. (SCI收录,WOS收录号: 000446212400005Web of Science核心合集索引频次3SCI索引频次3)

276 Jiang M J(蒋明镜), Shen Z F, Wu D. CFD-DEM simulation of submarine landslide triggered by seismic loading in methane hydrate rich zone. Landslides, 2018, 15(11): 2227-2241. (SCI收录,WOS收录号: 000449421600009Web of Science核心合集索引频次6SCI索引频次6)

275 Jiang M J(蒋明镜), Shen Z F, Zhou W, Marcos A, Zhang W C. Coupled CFD-DEM method for undrained biaxial shear test of methane hydrate bearing sediments. Granular Matter, 2018, 20(4): 63. (SCI收录,WOS收录号: 000441958300001Web of Science核心合集索引频次4SCI索引频次4)

274 Jiang M J(蒋明镜), Liu J, Shen Z F, Xi B L. Exploring the critical state properties and major principal stress rotation of sand in direct shear test using the distinct element method. Granular Matter, 2018, 20(2): 25. (SCI收录,WOS收录号: 000431462000008Web of Science核心合集索引频次10SCI索引频次9)

273 Li T, Jiang M J(蒋明镜), Thornton C. Three-dimensional discrete element analysis of triaxial tests and wetting tests on unsaturated compacted silt. Computers and Geotechnics, 2018, 97: 90-102. (SCI收录,WOS收录号: 000430771100010Web of Science核心合集索引频次1SCI索引频次1)

272 Jiang M J(蒋明镜), Dai Y S, Cui L, Xi B L. Experimental and DEM analyses on wheel-soil interaction. Journal of Terramechanics, 2018, 76(S1): 15-28. (SCI收录,WOS收录号: 000426330800002Web of Science核心合集索引频次5SCI索引频次5)

271 Jiang M J(蒋明镜), Liao Y B, Wang H N, Sun Y. Distinct element method analysis of jointed rock fragmentation induced by TBM cutting. Europen Jouranl of Environment and Civil Engineering, 2018, 22(sup1): s79-s98. (SCI收录,WOS收录号: 000446212400005Web of Science核心合集索引频次3SCI索引频次3)

270 Jiang M J(蒋明镜), Zhang A, Fu C. 3-D DEM simulations of drained triaxial tests on inherently anisotropic granulates. European Journal of Environment and Civil Engineering, 2018, 22(S1): s37-s56. (SCI收录,WOS收录号: 000446212400003Web of Science核心合集索引频次8SCI索引频次8)

269 Jiang M J(蒋明镜), Liu J, Shen Z F. Investigating the shear band of methane hydrate bearing sediments by FEM with an elasto-plastic constitutive model. Engineering Geology and the Environment, 2018, 77(3): 1015-1025. (SCI收录,WOS收录号: 000441525900012Web of Science核心合集索引频次2SCI索引频次2)

268 Jiang M J(蒋明镜), Dai Y S, Cui L, Xi B L. Soil-mechanics based testbed setup for lunar rover wheel and corresponding experimental investigations. Journal of Areospace Engineering, 2017, 30(6): 06017005. (SCI收录,WOS收录号: 000416762600018Web of Science核心合集索引频次3SCI索引频次3)

267 Jiang M J(蒋明镜), Liu J, Crosta G B, Li T. DEM analysis of the effect of joint geometry on the shear behavior of rocks. Computer Rendus Mecanique, 2017, 345(11): 779-796. (SCI收录,WOS收录号: 000416030200005Web of Science核心合集索引频次6SCI索引频次6)

266 Jiang M J(蒋明镜), He J, Wang J F, Zhou Y P, Zhu F Y. Discrete element analysis of the mechanical properties of deep-sea methane hydrate-bearing soils considering interparticle bond thickness. Computer Rendus Mecanique, 2017, 345(12): 868-889. (SCI收录,WOS收录号: 000417162400005Web of Science核心合集索引频次3SCI索引频次3)

265 Jiang M J(蒋明镜), Sima Jun, Cui Y J, Hu H J, Zhou C B, Lei H Y. Experimental investigation of the deformation characteristics of natural loess under the stress paths in shield tunnel excavation. International Journal of Geomechanics, 2017, 17(9): 04017079. (SCI收录,WOS收录号: 000417679300032Web of Science核心合集索引频次2SCI索引频次1)

264 Jiang M J(蒋明镜), Li T, Cui Y J, Zhu H H. Mechanical behavior of artificially cemented clay with open structure: Cell and physical model analyses. Engineering Geology, 2017, 221: 133-142. (SCI收录,WOS收录号: 000400214700014Web of Science核心合集索引频次4SCI索引频次3)

263 Jiang M J(蒋明镜), Xi B L, Arroyo M, Rodriguez-Dono A. DEM simulation of soil-tool interaction under extraterrestrial environmental effects. Journal of Terramechanics, 2017, 71: 1-13. (SCI收录,WOS收录号: 000401043500001Web of Science核心合集索引频次8SCI索引频次8)

262 Jiang M J(蒋明镜), Zhang F G, Hu H J. DEM modeling mechanical behavior of unsaturated structural loess under constant-stress-increment-ratio compression tests. International Journal of Geomechanics, 2017, 17(4): 04016108. (SCI收录,WOS收录号: 000398462200004Web of Science核心合集索引频次0SCI索引频次0)

261 Jiang M J(蒋明镜), Li T; Thornton C, Hu H J. Wetting-induced collapse behavior of unsaturated and structural loess under biaxial tests using distinct element method. International Journal of Geomechanics, 2017, 17(1): 06016010. (SCI收录,WOS收录号: 000392227800025Web of Science核心合集索引频次9SCI索引频次8)

260 Jiang M J(蒋明镜), Sima J, Li L Q, Zhou C B, Cui L. Investigation of influence of particle characteristics on the non-coaxiality of anisotropic granular materials using DEM. International Journal for Numerical and Analytical Methods in Geomechanics, 2017, 41(2): 198-222. (SCI收录,WOS收录号: 000396882700003Web of Science核心合集索引频次5SCI索引频次5)

259 Zhao J D, Jiang M J(蒋明镜), Soga K, Luding S. Micro origins for macro behavior in granular media. Granular Matter, 2016, 18(3): 59: 1-5. (SCI收录,WOS收录号: 000381149100033Web of Science核心合集索引频次8SCI索引频次8)

258 Jiang M J(蒋明镜), Fu C, Cui L, Shen Z F, Zhu F Y. DEM simulations of methane hydrate exploitation by thermal recovery and depressurization methods. Computers and Geotechnics, 2016, 80: 410-426. (SCI收录,WOS收录号: 000387523300038Web of Science核心合集索引频次9SCI索引频次8)

257 Jiang M J(蒋明镜), Liu J D, Arroyo M. Numerical evaluation of three non-coaxial kinematic models using the distinct element method for elliptical granular materials. International Journal for Numerical and Analytical Methods in Geomechanics, 2016, 40(18): 2468-2488. (SCI收录,WOS收录号: 000387208100003Web of Science核心合集索引频次1SCI索引频次1)

256 Jiang M J(蒋明镜), Li T, Shen Z F. Fabric rates of elliptical particle assembly in monotonic and cyclic simple shear tests: A numerical study. Granular Matter, 2016, 18(3): 54: 1-14. (SCI收录,WOS收录号: 000381149100012Web of Science核心合集索引频次17SCI索引频次15)

255 Shen ZF, Jiang M J(蒋明镜), Thornton C. Shear Strength of Unsaturated Granular Soils: Three-Dimensional Discrete Element Analyses. Granular Matter, 2016, 18(3): 37: 1-13. (SCI收录,WOS收录号: 000381149100016Web of Science核心合集索引频次4SCI索引频次4)

254 Jiang M J(蒋明镜), Li T, Chareyre B. Fabric rates applied to kinematic models: evaluating elliptical granular materials under simple shear tests via discrete element method. Granular Matter, 2016, 18(3): 46: 1-15. (SCI收录,WOS收录号: 000381149100015Web of Science核心合集索引频次0SCI索引频次0)

253 Jiang M J(蒋明镜), Yin Z Y, Shen Z F. Shear band formation in lunar regolith by discrete element analyses. Granular Matter, 2016, 18(2): 32: 1-14. (SCI收录,WOS收录号: 000375611000019Web of Science核心合集索引频次3SCI索引频次3)

252 Shen Z F, Jiang M J(蒋明镜). DEM simulation of bonded granular material. Part II: extension to grain-coating type methane hydrate bearing sand. Computers and Geotechnics, 2016, 75: 225-243. (SCI收录,WOS收录号: 000373647800020Web of Science核心合集索引频次20SCI索引频次19)

251 Shen Z F, Jiang M J(蒋明镜), Thornton C. DEM simulation of bonded granular material. Part I: contact model and application to cemented sand. Computers and Geotechnics, 2016, 75:192-209. (SCI收录,WOS收录号: 000373647800018Web of Science核心合集索引频次39SCI索引频次36)

250 Jiang M J(蒋明镜), He J, Wang J F, Chareyre B, Zhu F Y. DEM analysis of geomechanical properties of cemented methane hydrate bearing soils at different temperatures and pressures. International Journal of Geomechanics, 2016, 16(3): 04015087. (SCI收录,WOS收录号: 000379983600028Web of Science核心合集索引频次6SCI索引频次4)

249 Shen Z F, Jiang M J(蒋明镜), Wan R. Numerical study of inter-particle bond failure by 3D discrete element method. International Journal for Numerical and Analytical Methods in Geomechanics, 2016, 40(4): 523-545. (SCI收录,WOS收录号: 000370038600004Web of Science核心合集索引频次9SCI索引频次6)

248 Jiang M J(蒋明镜), Shen Z F, Utili S. DEM modeling of cantilever retaining excavations: implications for lunar constructions. Engineering Computations, 2016, 33(2): 366-394. (SCI收录,WOS收录号: 000377046600005Web of Science核心合集索引频次8SCI索引频次7)

247 Jiang M J(蒋明镜), Shen Z F, Li L Q. Noncoaxial behavior of a highly angular granular material subjected to stress variations in simple vertical excavation. International Journal of Geomechanics, 2016, 16(2): 04015040. (SCI收录,WOS收录号: 000372800600017Web of Science核心合集索引频次5SCI索引频次5)

246 Jiang M J(蒋明镜), Liao Z W, Zhang N, Shao J F. Discrete element analysis of chemical weathering on rock. European Journal of Environmental and Civil Engineering, 2015, 19(S1): s15-s28. (SCI收录,WOS收录号: 000380005800002Web of Science核心合集索引频次0SCI索引频次0)

245 Jiang M J(蒋明镜), Sun C, Rodriguez-Dono A, Zhang N, Shao J F. Influence of time-dependence on failure of echelon rock joints through a novel DEM model. European Journal of Environmental and Civil Engineering, 2015, 19(sup1): s108-s118. (SCI收录,WOS收录号: 000380005800009Web of Science核心合集索引频次3SCI索引频次3)

244 Jiang M J(蒋明镜), Zhu F Y, Utili S. Investigation into the effect of backpressure on the mechanical behavior of methane-hydrate-bearing sediments via DEM analyses. Computers and Geotechnics, 2015, 69: 551-563. (SCI收录,WOS收录号: 000361073900046Web of Science核心合集索引频次12SCI索引频次11)

243 Jiang M J(蒋明镜), Jiang T, Crosta G B, Shi Z M, Chen H, Zhang N. Modeling failure of jointed rock slope with two main joint sets using a novel DEM bond contact model. Engineering Geology, 2015, 193: 79-96. (SCI收录,WOS收录号: 000357350000006Web of Science核心合集索引频次34SCI索引频次31)

242 Jiang M J(蒋明镜), Zhang N, Cui L, Jin S L. A size-dependent bond failure criterion for cemented granules based on experimental studies. Computers and Geotechnics, 2015, 69: 182-198. (SCI收录,WOS收录号: 000361073900016Web of Science核心合集索引频次4SCI索引频次2)

241 Liu F, Jiang M J(蒋明镜), Sun C, Deng G. On the size-dependent compressive resistance of bonded granules. Géotechnique Letters, 2015, 5: 104-111. (SCI收录,WOS收录号: 000359265700003Web of Science核心合集索引频次3SCI索引频次1)

240 Jiang M J(蒋明镜), Liu F, Wang H N, Wang X X. Investigation of the effect of different gravity conditions on penetration mechanisms by the distinct element method. Engineering Computations, 2015, 32(7): 2067-2099. (SCI收录,WOS收录号: 00368249300010Web of Science核心合集索引频次2SCI索引频次2)

239 Jiang M J(蒋明镜), Zhang W C. DEM analyses of shear band in granular materials. Engineering Computations, 2015, 32(4): 985-1005. (SCI收录,WOS收录号: 000357272600004Web of Science核心合集索引频次6SCI索引频次5)

238 Jiang M J(蒋明镜), Chen H, Crosta G B. Numerical modeling of rock mechanical behavior and fracture propagation by a new bond contact model. International Journal of Rock Mechanics and Mining Sciences, 2015, 78: 175-189. (SCI收录,WOS收录号: 000360637800019Web of Science核心合集索引频次23SCI索引频次18)

237 Jiang M J(蒋明镜), Sun C, Crosta G B, Zhang W C. A study of submarine steep slope failures triggered by thermal dissociation of methane hydrates using a coupled CFD-DEM approach. Engineering Geology, 2015, 190: 1-16. (SCI收录,WOS收录号: 000353853000001Web of Science核心合集索引频次22SCI索引频次21)

236 Jiang M J(蒋明镜), Zhang F G, Thornton C. A simple three-dimensional distinct element modeling of the mechanical behavior of bonded sands. International Journal for Numerical and Analytical Methods in Geomechanics, 2015, 39(16): 1791-1820. (SCI收录,WOS收录号: 000362891500003Web of Science核心合集索引频次7SCI索引频次6)

235 Jiang M J(蒋明镜), Shen Z F, Wang J F. A novel three-dimensional contact model for granulates incorporating rolling and twisting resistances. Computers and Geotechnics, 2015, 65: 147-163. (SCI收录,WOS收录号: 000350778800014Web of Science核心合集索引频次66SCI索引频次55)

234 Jiang M J(蒋明镜), Zhang W C, Wang J F, Zhu H H. DEM analyses of an uplift failure mechanism with pipe buried in cemented granular ground. International Journal of Geomechanics, 2015, 15(5): 04014083. (SCI收录,WOS收录号: 000361555300019Web of Science核心合集索引频次10SCI索引频次6)

233 Jiang M J(蒋明镜), Zhang F G, Hu H J, Cui Y J, Peng J B. Structural characterization of natural loess and remolded loess under triaxial tests. Engineering Geology, 2014, 181: 249-260. (SCI收录,WOS收录号: 000344426900021Web of Science核心合集索引频次75SCI索引频次67)

232 Liu F, Jiang M J(蒋明镜), Zhu F Y. Discrete element analysis of uplift and lateral capacity of a single pile in methane hydrate bearing sediments. Computers and Geotechnics, 2014, 62: 61-76. (SCI收录,WOS收录号: 000343618400006Web of Science核心合集索引频次4SCI索引频次3)

231 Jiang M J(蒋明镜), He J, Wang J F, Liu F, Zhang W C. Distinct simulation of earth pressure against a rigid retaining wall considering inter-particle rolling resistance in sandy backfill. Granular Matter. 2014, 16(5): 797-814. (SCI收录,WOS收录号: 000342491100014Web of Science核心合集索引频次12SCI索引频次9)

230 Jiang M J(蒋明镜), Dai Y S, Cui L, Shen Z F, Wang X X. Investigating mechanism of inclined CPT in granular ground using DEM. Granular Matter. 2014, 16(5): 785-796. (SCI收录,WOS收录号: 000342491100013Web of Science核心合集索引频次19SCI索引频次16)

229 Jiang M J(蒋明镜), Li T, Hu H J, Thornton C. DEM analyses of one-dimensional compression and collapse behaviour of unsaturated structural loess. Computers and Geotechnics.2014, 60: 47-60. (SCI收录,WOS收录号: 000337880100006Web of Science核心合集索引频次30SCI索引次25)

228 Jiang M J(蒋明镜), Liu F, Zhou Y P. A bond failure criterion for DEM simulations of cemented geomaterials considering variable bond thickness. International Journal for Numerical and Analytical Methods in Geomechanics, 2014, 38(18): 1871-1897. (SCI收录,WOS收录号: 000345315800001Web of Science核心合集索引频次10SCI索引频次10)

227 Jiang M J(蒋明镜), Zhu F Y, Liu F, Utili S. A bond contact model for methane hydrate bearing sediments with interparticle cementation. International Journal for Numerical and Analytical Methods in Geomechanics, 2014, 38(17): 1823-1854. (SCI收录,WOS收录号: 000345023300004Web of Science核心合集索引频次43SCI索引频次34)

226 Jiang M J(蒋明镜), Liu F, Shen Z F, Zheng M. Distinct element simulation of lugged wheel performance under extraterrestrial environmental effects. Acta Astronautica, 2014, 99: 37-51. (SCI收录,WOS收录号: 000335612000004Web of Science核心合集索引频次12SCI索引频次14)

225 Jiang M J(蒋明镜), Zhang F G, Sun Y G. An evaluation on the degradation evolutions in three constitutive models for bonded geomaterials by DEM analyses. Computers and Geotechnics.2014, 57: 1-16. (SCI收录,WOS收录号: 000334988400001Web of Science核心合集索引频次19SCI索引频次18)

224 Jiang M J(蒋明镜), Liu J D, Yin Z Y. Consolidation and creep behaviors of two typical marine clays in China. China Ocean Engineering, 2014, 28(5): 629-644. (SCI收录,WOS收录号: 000343892500005Web of Science核心合集索引频次4SCI索引频次4)

223 Jiang M J(蒋明镜), Yin Z Y. Influence of soil conditioning on ground deformation during longitudinal tunneling. Comptes Rendus Mecanique, 2014, 342(3): 189-197. (SCI收录,WOS收录号: 000334155100007Web of Science核心合集索引频次34SCI索引频次27)

222 Jiang M J(蒋明镜), Chen H, Tapias M, Arroyo M, Fang R. Study of mechanical behavior and strain localization of methane hydrate bearing sediments with different saturations by a new DEM model. Computers and Geotechnics, 2014, 57C: 122-138. (SCI收录,WOS收录号: 000334988400013Web of Science核心合集索引频次22SCI索引频次19)

221 Sima J, Jiang M J (蒋明镜), Zhou C B. Numerical simulation of desiccation cracking in a thin clay layer using 3D discrete element modeling, Computers and Geotechnics, 2014, 56C: 168-180. (SCI收录,WOS收录号:000331853200016Web of Science核心合集索引频次31SCI索引频次25)

220 Jiang M J (蒋明镜), Liu J D, Sun Y G, Yin Z Y. Investigation into macroscopic and microscopic behaviors of bonded sands using distinct element method, Soils and Foundations, 2013, 53(6): 804-819. (SCI收录,WOS收录号: 000338922200002Web of Science核心合集索引频次20SCI索引频次16)

219 Jiang M J (蒋明镜), Shen Z F, Colin Thornton. Microscopic contact model of lunar regolith for high efficiency discrete element analyses, Computers and Geotechnics, 2013, 54: 104-116. (SCI收录,WOS收录号: 000325057000011Web of Science核心合集索引频次25SCI索引频次22)

218 Jiang M J (蒋明镜), Li LQ, Yang Q J. Experimental investigation on deformation behavior of TJ-1 lunar soil simulant subjected to principal stress rotation. Advances in Space Research, 2013, 52(1): 136-146. (SCI收录,WOS收录号: 000320639100014Web of Science核心合集索引频次20SCI索引频次19)

217 Jiang M J (蒋明镜), Sun Y G, Yang Q J. A simple distinct element modeling of the mechanical behavior of methane hydrate-bearing sediments in deep seabed. Granular Matter, 2013, 15(2): 209-220. (SCI收录,WOS收录号: 000317008400009Web of Science核心合集索引频次22SCI索引频次18)

216 Jiang M J (蒋明镜), Zhang WC. DEM investigation on mechanical behavior within shear bands in granulates under the Earth and the Moon conditions. Theoretical and Applied Mechanics Letters, 2013, 3(2): 1-5.

215 Jiang M J (蒋明镜), Shen Z F, Zhu F Y. Numerical analyses of braced excavation in granular grounds: Continuum and discrete element approaches. Granular Matter, 2013,15(2): 195-208. (SCI收录,WOS收录号: 000317008400008Web of Science核心合集索引频次14SCI索引频次12)

214 Jiang M J(蒋明镜), Zhang W C, Sun YG, Utili S. An investigation on loose cemented granular materials via DEM analysis, Granular Matter, 2013, 15(1): 65-84. (SCI收录,WOS收录号: 000314410700006Web of Science核心合集索引频次45SCI索引频次40)

213 Jiang M J(蒋明镜), Hu H J, Liu F. Summary of collapsible behaviour of artificially structured loess in oedometer and triaxial wetting tests. Canadian Geotechnical Journal, 2012, 49(10): 1147-1157. (SCI收录,WOS收录号: 000310350000003Web of Science核心合集索引频次45SCI索引频次39)

212 Jiang M J(蒋明镜), Shen Z F, Li L Q, Su J X. A novel specimen preparation method for TJ-1 lunar soil simulant in Hollow Cylinder Apparatus. Journal of Rock Mechanics and Geotechnical Engineering, 2012, 4(4): 312-325.

211 Jiang M J(蒋明镜), Sun Y G, Li L Q, Zhu H H. Contact behavior of idealized granules bonded in two different interparticle distances: An experimental investigation, Mechanics of Materials, 2012, 55: 1-15.(SCI收录,WOS收录号: 000311135800001Web of Science核心合集索引频次58SCI索引频次37)

210 Jiang M J(蒋明镜), Yin Z Y. Analysis of stress redistribution in soil and earth pressure on tunnel lining using the discrete element method. Tunnelling and Underground Space Technology, 2012, 32: 251-259. (SCI收录,WOS收录号: 000309296900024Web of Science核心合集索引频次62SCI索引频次49)

209 Jiang M J(蒋明镜), Sun Y G, Xiao Y. An experimental investigation on the mechanical behavior between cemented granules, Geotechnical Testing Journal (ASTM), 2012, 35(5): 678-690. (SCI收录,WOS收录号: 000309574000002Web of Science核心合集索引频次49SCI索引频次30)

208 Jiang M J(蒋明镜), Murakami A. Distinct element method analyses of idealized bonded-granulate cut slope, Granular Matter, 2012, 14(3): 393-410. (SCI收录,WOS收录号: 000303881800008Web of Science核心合集索引频次35SCI索引频次29)

207 Jiang M J(蒋明镜), Li L Q, Sun Y G. Properties of TJ-1 lunar soil simulant. Journal of Aerospace Engineering, 2012, 25(3): 463-469. (SCI收录,WOS收录号: 000313238800014Web of Science核心合集索引频次32SCI索引频次21)

206 Jiang M J(蒋明镜), Sun Y G. Cavity expansion analyses of crushable granular materials with state-dependent dilatancy. International Journal for Numerical and Analytical Methods in Geomechanics, 2012, 36(6): 723-742. (SCI收录,WOS收录号: 000302708700004Web of Science核心合集索引频次18SCI索引频次18)

205 Wang J F, Jiang M J(蒋明镜). Unified soil behavior of interface shear test and direct shear test under the influence of lower moving boundaries. Granular Matter, 2011, 13(5): 631-641. (SCI收录,WOS收录号: 000297243200012Web of Science核心合集索引频次32SCI索引频次29)

204 Jiang M J(蒋明镜), Hu H J, Peng J B, Leroueil S. Experimental study of two saturated natural soils and their saturated remoulded soils under three consolidated undrained stress paths. Frontiers of Architecture and Civil Engineering in China. 2011, 5(2): 225-238.

203 Jiang M J(蒋明镜), Yan H B, Zhu H H, Utili S. Modeling shear behavior and strain localization in cemented sands by two-dimensional distinct element method analyses. Computers and Geotechnics, 2011, 38(1): 14-29. (SCI收录,WOS收录号: 000286088100002Web of Science核心合集索引频次133SCI索引频次112)

202 Jiang M J(蒋明镜), Zhu H-H, Li X-M. Strain localization analyses of idealized sands in biaxial tests by distinct element method. Frontiers of Architecture and Civil Engineering in China (FAC), 2010, 4(2): 208-222.

201 Jiang M J(蒋明镜), Peng L CZhu H H, Lin Y X, Huang L J. Macro- and Micro- properties of two natural marine clays in China, China Ocean Engineering, 2009, 23(2): 329-344. (SCI收录,WOS收录号: 000267785100012Web of Science核心合集索引频次14SCI索引频次9)

200 Jiang M J(蒋明镜), Leroueil S, Zhu H H, Yu H S, Konrad J M. Two-Dimensional discrete element theory for rough particles, International Journal of Geomechanics (ASCE), 2009, 9(1): 20-33. (EI收录号: 20090511883547)

199 Utili S, Yin Z YJiang M J (蒋明镜). Influences of hydraulic uplift pressures on stability of gravity dam, Chinese Journal of Rock Mechanics and Engineering, 2008, 27(8): 1554-1568. (EI收录号: 20083611520756)

198 Jiang M J(蒋明镜), Zhu H H, Harris D. Classical and non-classical kinematic fields of two-dimensional penetration tests on granular ground by discrete element method analyses. Granular Matter, 2008, 10(6): 439-455. (SCI收录,WOS收录号: 000259862000003Web of Science核心合集索引频次38SCI索引频次29)

197 Jiang M J(蒋明镜), Zhu H H. An interpretation of the internal length in Chang’s couple-stress continuum for bonded granulates. Granular Matter, 2007, 9(6): 431-437. (SCI收录,WOS收录号: 000250721800007Web of Science核心合集索引频次23SCI索引频次18)

196 Jiang M J(蒋明镜), Harris D, Zhu H H. Future continuum models for granular materials in penetration analyses. Granular Matter, 2007, 9(1-2): 97-108. (SCI收录,WOS收录号: 000242428300010Web of Science核心合集索引频次43SCI索引频次34)

195 Jiang M J(蒋明镜), Yu H S, Leroueil S. A simple and efficient approach to capturing bonding effect in naturally microstructured sands by discrete element method. International Journal for Numerical Methods in Engineering, 2007, 69(6): 1158-1193. (SCI收录,WOS收录号: 000244010800002Web of Science核心合集索引频次88SCI索引频次59)

194 Jiang M J(蒋明镜), Yu H S, Harris D. Bond rolling resistance and its effect on yielding of bonded granulates by DEM analyses. International Journal for Numerical and Analytical Methods in Geomechanics, 2006, 30(8): 723-761. (SCI收录,WOS收录号: 000239031200002Web of Science核心合集索引频次112SCI索引频次78)

193 Jiang M J(蒋明镜), Yu H S, Harris D. Discrete element modelling of deep penetration in granular soils. International Journal for Numerical and Analytical Methods in Geomechanics, 2006, 30(4): 335-361. (SCI收录,WOS收录号: 000236976500003Web of Science核心合集索引频次114SCI索引频次82)

192 Jiang M J(蒋明镜), Yu H S, Harris D. Kinematic variables bridging discrete and continuum granular mechanics. Mechanics Research Communication, 2006, 33(5): 651-666. (SCI收录,WOS收录号: 000238020300006Web of Science核心合集索引频次37SCI索引频次26)

191 Jiang M J(蒋明镜), Yu H S, Harris D. A novel discrete model for granular material incorporating rolling resistance. Computers and Geotechnics, 2005, 32(5): 340-357. (SCI收录,WOS收录号: 000231589100003Web of Science核心合集索引频次294SCI索引频次231) (曾为ScienceDirect"全球下载最多"第二名,Computers and Geotechnics 20103月最受关注论文Top1Computers and Geotechnics迄今为止引用次数最多论文)

190 Jiang M J(蒋明镜), Leroueil S, Konrad J M. Yielding of microstructured geomaterial by distinct element method analysis. Journal of Engineering Mechanics (ASCE), 2005, 131(11): 1209-1213. (SCI收录,WOS收录号: 000232767800010Web of Science核心合集索引频次48SCI索引频次39)

189 Jiang M J(蒋明镜), Harris D, Yu H S. A novel approach to examining double-shearing type models for granular materials. Granular Matter, 2005, 7(2-3): 157-168. (SCI收录,WOS收录号: 000230516700011Web of Science核心合集索引频次10SCI索引频次9)

188 Jiang M J(蒋明镜), Harris D, Yu H S. Kinematic models for non-coaxial granular materials: Part I: theory. Int. Journal for Numerical and Analytical Methods in Geomechanics, 2005, 29(7): 643-661. (SCI收录,WOS收录号: 000229519500001Web of Science核心合集索引频次35SCI索引频次25)

187 Jiang M J(蒋明镜), Harris D, Yu H S. Kinematic models for non-coaxial granular materials: Part II: evaluation. Int. Journal for Numerical and Analytical Methods in Geomechanics, 2005, 29(7): 663-689. (SCI收录,WOS收录号: 000229519500002Web of Science核心合集索引频次56SCI索引频次39)

186 Higo Y, Oka F, Jiang M J(蒋明镜), Fujita Y. Effects of transport of pore water and material heterogeneity on strain localization analysis of fluid-saturated gradient-dependent viscoplastic geomaterial. International Journal for Numerical and Analytical Methods in Geomechanics, 2005, 29(5): 495-523. (SCI收录,WOS收录号: 000228732800003Web of Science核心合集索引频次15SCI索引频次8)

185 Jiang M J(蒋明镜), Leroueil S., Konrad J M. Insight into shear strength functions of unsaturated granulates by DEM analysis. Computers and Geotechnics, 2004, 31(6): 473-489. (SCI收录,WOS收录号: 000224453900004Web of Science核心合集索引频次107SCI索引频次82) (曾为ScienceDirect“全球下载最多第四名;Computers and Geotechnics 200410-12月最受关注论文Top4)

184 Jiang M J(蒋明镜), Konrad J M., Leroueil S. An efficient technique for generating homogeneous specimens for DEM studies. Computers and Geotechnics, 2003, 30(7): 579-597. (SCI收录,WOS收录号: 000186103100004Web of Science核心合集索引频次254SCI索引频次159Computers and Geotechnics迄今为止引用次数第二多论文)

183 Jiang M J(蒋明镜), Shen Z J, Adachi T and Hongo T. Microanalysis on artificially-prepared structured collapsible loess. Chinese Journal of Geotechnical Engineering, 1999, 21(4): 486-491.

182 Jiang M J(蒋明镜), Hongo T, Fukuda M, Adachi T, Oka F, Shen, Z J, Xing S Y. Pre-failure behavior of deep-situated Osaka clay. China Ocean Engineering, 1998, 12: 453-465. (SCI收录,WOS收录号:000078887100009Web of Science核心合集索引频次9SCI索引频次4)

181 Jiang M J(蒋明镜), Shen Z J. Microanalysis on shear band of structured clays. Chinese Journal of Geotechnical Engineering. 1998, 20(2): 102-108.

180蒋明镜,卫超群,王华宁,.深部复合岩体隧道开挖离散元模拟[J].岩土工程学报(增刊), 2020,录用.

179蒋明镜,庞红星,王华宁,.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(增刊). 2020,录用.

178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(增刊), 2020,录用.

177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(增刊), 2020,录用.

176蒋明镜,吕雷,李立青,. TJ-M1模拟火壤承载特性的研究.岩土工程学报, 2020, 42(10): 1783-1789EI收录号:20204509448024

175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(06): 1159-1166.EI收录号:20202708899041

174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(03): 243-251.EI收录号:20201808589258

173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(01): 20-28.EI收录号:20200908214920

172蒋明镜,石安宁,刘俊,张伏光.结构性砂土力学特性三维离散元分析.岩土工程学报, 2019, 41(S2): 1-4.EI收录号:20195007811469

171蒋明镜,张浩泽,李涛,张鹏.非饱和重塑与结构性黄土等向压缩试验离散元分析.岩土工程学报, 2019, 41(S2): 121-124.EI收录号:20195007811535

170蒋明镜,孙若晗,李涛,刘俊.一个非饱和结构性黄土三维胶结接触模型.岩土工程学报, 2019, 41(S1): 213-216.EI收录号:20194307575848

169蒋明镜,傅程,王华宁,刘俊,廖优斌,陈有亮.简单复合岩体中TBM多滚刀破岩机理离散元分析.土木工程学报, 2019, 52(S1): 120-126.EI收录号:20195007837494

168蒋明镜,许泽伟,刘俊,吴迪,吴晓峰,王剑锋.循环荷载下钙质砂单颗粒破碎试验研究.天津大学学报(自然科学与工程技术版), 2019, 52(S1): 23-28.EI收录号:20192907192333

167 .蒋明镜,廖优斌,陈有亮,奚邦禄.三种环境下月壤削坡试验离散元分析.郑州大学学报(理学版), 2019, 51(01): 119-126.

166蒋明镜,杨开新,陈有亮,廖优斌.不同岩性下TBM滚刀破岩过程离散元分析.水资源与工程学报, 2019, 30(02): 198-204+211.

165蒋明镜,江华利,廖优斌,刘笋,王华宁.不同形式节理的岩质边坡失稳演化离散元分析.同济大学学报:自然科学版, 2019, 47(02): 167-174.EI收录号:20192507058540

164蒋明镜.现代土力学研究的新视野——宏微观土力学.岩土工程学报, 2019, 41(02): 195-254.EI收录号:20192206992496

163蒋明镜,杜文浩,奚邦禄.净砂与胶结砂土Trapdoor试验离散元数值模拟.地球科学与环境学报, 2018, 40(03): 347-354.

162李涛,蒋明镜,张鹏.非饱和结构性黄土侧限压缩和湿陷试验三维离散元分析.岩土工程学报, 2018, 40(S1): 39-44.EI收录号:20190306385399

161蒋明镜,卢厚华,王华宁,廖兆文.雨水渗透下节理岩质边坡失稳离散元模拟.郑州大学学报(理学版), 2018, 50(04): 106-111.

160廖优斌,蒋明镜,陈有亮,奚邦禄,谭亚飞鸥.不同坡角下月壤滑坡机理的离散元分析.水资源与水工程学报, 2018, 29(02): 194-200.

159蒋明镜,李晨辉,刘蔚,张安,张学文.不同胶结半径的粒间胶结拉伸和压缩试验研究.岩土工程学报, 2018, 40(S2): 12-16.EI收录号:20190306397538

158蒋明镜,杨开新,陈有亮,丁志军,谢扬彪.南海钙质砂单颗粒破碎试验研究.湖南大学学报, 2018, 45(S1): 150-155.EI收录号:20191006593297

157蒋明镜,江华利,廖优斌,刘笋.顺层岩质边坡锚杆加固机理离散元分析.湖南大学学报, 2018, 45(S1): 144-149.EI收录号:20191006593296

156蒋明镜,刘俊,申志福.裹覆型能源土力学特性真三轴试验离散元数值分析.中国科学物理学力学天文学, 2019, 49(03): 153-164.

155蒋明镜,张鹏,陈添,王华宁,廖优斌.不同埋深条件下隧道开挖的离散元模拟初探.地下空间与工程学报, 2018, 14(S2): 44-149, 794-802.

154张伏光,蒋明镜.胶结砂土强度特性的真三轴试验离散元分析.岩石力学与工程学报, 2018, 37(6): 1530-1539.EI收录号:20183605772025

153蒋明镜,刘俊,周卫,奚邦禄.一个深海能源土弹塑性本构模型.岩土力学, 2018, 39(4): 1153-1158.EI收录号:20183805826920

152刘笋,蒋明镜,付昌,朱俊高.结构性砂土静力触探试验离散元分析.岩土力学, 2018, 39(3): 933-942.EI收录号:20183305687007

151张伏光,蒋明镜.基坑土体卸荷平面应变试验离散元数值分析.岩土力学, 2018, 39(1): 339-348.EI收录号:20181905174276

150张伏光,蒋明镜.基于微观破损机理的胶结砂土三维本构模型研究.岩土工程学报, 2018, 40(08): 1424-1432.EI收录号:20184205953421

149蒋明镜,李志远,黄贺鹏,刘俊.南海软土微观结构与力学特性试验研究.岩土工程学报, 2017, 39(S2): 17-20.EI收录号:20183905880099

148李磊,蒋明镜,张伏光.深部岩石考虑残余强度时三轴试验离散元定量模拟及参数分析.岩土力学, 2017, 39(3): 1082-1090.EI收录号:20183305687024

147王华宁,宋飞,蒋明镜.基于时效理论解的双层衬砌圆形隧道围岩压力分担的简便计算方法.岩土工程学报, 2017, 39(9): 1600-1608.EI收录号:20180104607955

146蒋明镜,张安,付昌,李涛.各向异性砂土宏微观特性三维离散元分析.岩土工程学报, 2017, 39(12): 2165-2172.EI收录号:20181705037838

145袁聚云,蒋明镜,廖优斌,孙亚.全断面隧道掘进机滚刀破岩尺寸效应离散元分析.同济大学学报(自然科学版), 2017, 45(10): 1437-1445.EI收录号:20181204915671

144沈亚男,蒋明镜,奚邦禄.基于有限体积法的三维CFD-DEM耦合方法.水资源与水工程学报, 2017, 28(2): 126-132.

143蒋明镜,谭亚飞鸥,金树楼.胶结砂土力学特性的三维离散元简化分析,水资源与水工程学报, 2017, 28(1): 187-191.

142蒋明镜,张鹏,廖兆文.考虑水软化-化学风化作用的岩石单轴压缩试验离散元模拟.中国水利水电科学研究院学报, 2017, 15(2): 89-95.

141蒋明镜,刘蔚,孙亚,张宁,王华宁.考虑环境劣化非贯通节理岩体直剪试验DEM模拟.岩土力学, 2017, 38(9): 2728-2736.EI收录号:20175004519889

140蒋明镜,卢厚华,李涛,金树楼.不同胶结物粒间胶结三维仿微观力学试验.同济大学学报(自然科学版), 2017, 45(11): 1585-1591.EI收录号:20182005205667

139蒋明镜,吴迪,曹培,丁志军.基于SEM图片的钙质砂连通孔隙分析.岩土工程学报, 2017, 39(z1): 1-5.EI收录号:20183905879920

138蒋明镜,申志福.用于离散元分析的胶结材料三维微观接触模型[J].地下空间与工程学报, 2016, 12(01): 30-37.

137郭振宇,蒋明镜,奚邦禄. TJ-1模拟月壤开挖实验研究.防灾减灾工程学报, 2016, 36(4): 652-656.

136贺洁,蒋明镜.孔隙填充型能源土的宏微观力学特性真三轴试验离散元分析.岩土力学, 2016, 37(10): 3026-3034.EI收录号:20164202916341

135蒋明镜,牛昴懿,廖兆文.考虑水软化作用的非贯通共面节理岩体直剪试验的离散元分析.中国水利水电科学研究院学报, 2016, 14(5): 321-327.

134蒋明镜,廖优斌,刘蔚,谭亚飞鸥.考虑胶结强度正态分布下砂土力学特性离散元模拟.岩土工程学报, 2016, 38(z2): 1-6.EI收录号:20163402727468

133蒋明镜,陈添,刘静德,付昌,陈双林,蔡军.沉积角对净砂宏微观力学特性影响离散元分析.岩土力学, 2016, 37(2): 554-562.EI收录号:20161502232990

132蒋明镜,孙亚,王华宁,袁聚云.全断面隧道掘进机破岩机理离散元分析.同济大学学报(自然科学版), 2016, 44(7): 1038-1044.EI收录号:20163002646359

131贺洁,蒋明镜.孔隙填充型深海能源土的离散元成样新方法及宏观力学特性.同济大学学报(自然科学版), 2016, 44(5): 709-717.EI收录号:20162502522082

130蒋明镜,付昌,刘静德,张伏光.不同沉积方向各向异性结构性砂土离散元力学特性分析.岩土工程学报, 2016, 38(1): 138-146.EI收录号:20161302154417

129蒋明镜,奚邦禄,申志福,戴永生.月壤水平开挖推剪阻力影响因素离散元数值分析.岩土力学, 2016, 37(1): 229-236.EI收录号:20161302155166

128蒋明镜,刘静德.结构性砂土胶结厚度分布特性试验研究.地下空间与工程学报, 2016, 12(2): 362-368.

127蒋明镜,周卫,刘静德,李涛.基于微观力学机制的各向异性结构性砂土的本构模型研究.岩土力学, 2016, 37(12): 3347-3355.EI收录号: 20165203182089

126蒋明镜,胡海军,李涛.非饱和结构性黄土双轴湿陷试验的离散元分析.地下空间与工程学报, 2016, 12(4): 1110-1116.

125蒋明镜,奚邦禄,申志福,戴永生.月壤水平推剪试验的离散元数值分析.地下空间与工程学报, 2016, 12(3): 712-718.

124胡海军,蒋明镜.引入离散元所得破损规律的结构性黄土本构模型.岩石力学与工程学报, 2016, 35(S1): 3241-3248.EI收录号:20162302464974

123蒋明镜,奚邦禄,孙德安,闫超. TJ-1模拟月壤承载特性物理模型试验研究.同济大学学报(自然科学版), 2015, 44(2): 167-172.EI收录号:20161102091678

122蒋明镜,方威,司马军.模拟岩石的平行粘结模型微观参数标定.山东大学学报(工学版), 2015, 45(4): 50-56.

121蒋明镜,付昌,贺洁,朱方园.胶结型深海能源土升温降压联合分解离散元分析.同济大学学报(自然科学版), 2015, 43(10): 1480-1486.EI收录号:20154701584241

120蒋明镜,奚邦禄,李立青,戴永生.模拟月壤微观结构形态的定量化研究新方法.同济大学学报(自然科学版), 2015, 43(8): 1123-1233.EI收录号:20153801280622

119蒋明镜,戴永生,申志福.竖向荷载对月球车行驶性能影响的离散元分析.地下空间与工程学报, 2015, 11(5): 1221-1227.

118孙超,刘芳,蒋明镜.不同厚度及边界胶结颗粒抗压特性离散元分析.地下空间与工程学报, 2015, 11(1): 70-76.

117蒋明镜,廖兆文,张望城,王华宁.砂埋管道上浮地基破坏机理的离散元模拟.地下空间与工程学报, 2015, 11(6): 1506-1513.

116蒋明镜,贺洁.基于颗粒抗转动模型的刚性挡墙被动土压力临界状态离散元分析.岩土力学, 2015, 36(10): 2996-3006.EI收录号:20154501525957

115蒋明镜,孙亚,陈贺,袁聚云,张顺高.非贯通非共面节理岩体直剪试验DEM数值模拟.岩石力学与工程学报, 2015, 34(s2): 3667-3675.EI收录号:20154501526164

114蒋明镜,金树楼,刘蔚,刘俊.粒间胶结接触力学特性的三维试验研究.岩土力学, 2015, 36(S1): 9-13.EI收录号:20153301165827

113蒋明镜,付昌,刘静德,李涛.各向异性结构性砂土离散元分析.岩土力学, 2015, 36(S1): 577-584.EI收录号:20153301165637

112蒋明镜,付昌,贺洁,申志福,朱方园.不同开采方法下深海能源土离散元模拟.岩土力学, 2015, 36(2): 640-647.EI收录号:20153901301698

111彭镝,蒋明镜.斜坡地基静力触探试验离散元分析.地震工程学报, 2015, 37(S1): 57-62.

110蒋明镜,奚邦禄,申志福,戴永生.不同重力下月壤水平推剪阻力离散元数值分析.岩土工程学报, 2015, 37(7): 1300-1306.EI收录号:20153201110884

109王智超,蒋明镜,陈双林,蔡军.天然结构性软土解构规律及参数分析.防灾减灾工程学报, 2015, 35(4): 508-514.

108郝飞,蒋明镜,孙德安,闫超,张熇,王闯. TJ-1模拟月壤承载特性室内试验研究.岩土力学, 2015, 36(7): 1953-1958.EI收录号:20153301165672

107蒋明镜,李磊,孙超.地基承载力尺寸效应离散元分析.同济大学学报(自然科学版), 2015, 43(5): 649-656.EI收录号:20152701007947

106蒋明镜,李磊,周雅萍.深海能源土地基承载特性离散元分析.岩土工程学报, 2015, 37(2): 343-350.EI收录号:20151200650493

105蒋明镜,张宁,金树楼.不同胶结宽度粒间胶结特性试验研究.岩土力学, 2015, 36(4): 928-936.EI收录号:20151900832192

104蒋明镜,金树楼,张宁.不同胶结尺寸的粒间胶结强度统一表达式.岩土力学, 2015, 36(9): 2451-2466.EI收录号:20154501526046

103蒋明镜,张宁,申志福,陈贺.含裂隙岩体单轴压缩裂纹扩展机制离散元分析.岩土力学, 2015, 36(11): 3293-3300+3314.EI收录号:20155001667337

102蒋明镜,廖兆文,张宁.混凝土硫酸盐侵蚀离散元模拟初探.水利学报, 2014, 45(S2): 1-7.EI收录号:20154201411167

101蒋明镜,戴永生,王新新.低重力环境下静力触探贯入机理离散元分析.岩土工程学报, 2014, 36(11): 2045-2053.EI收录号:20144900285817

100付昌,蒋明镜,申志福,王华宁,吴晓峰.非饱和土动剪模量与阻尼比影响因素试验.山东大学学报(工学版), 2014, 44(5): 35-41.

99蒋明镜,彭镝,申志福,张望城,朱方园.深海能源土剪切带形成机理离散元分析.岩土工程学报, 2014, 36(9): 1624-1630.EI收录号:201444148488

98蒋明镜,朱方园.不同温压环境下深海能源土力学特性离散元分析.岩土工程学报, 2014, 36(10): 1761-1769.EI收录号:201445160921

97蒋明镜,朱方园.一个深海能源土的温度-水压-力学二维微观胶结模型.岩土工程学报, 2014, 36(8): 1377-1386.EI收录号:201436063151

96蒋明镜,陈贺.含双裂隙岩石裂纹演化机理的离散元数值分析.岩土力学, 2014, 35(11): 3259-3268.EI收录号:20145100335647

95蒋明镜,张宁,陈贺.岩石化学风化时效效应的离散元模拟.岩土力学, 2014, 35(12): 3577-3584.EI收录号:20150200412551

94蒋明镜,胡海军.荷载和水作用下结构性黄土破损规律的离散元分析.岩土工程学报, 2014, 36(6): 989-997.EI收录号:20142817936365

93胡海军,蒋明镜,彭建兵,申志福.应力路径试验前后不同黄土的孔隙分形特征.岩土力学, 2014, 35(9): 2479-2485.EI收录号:201442103578

92蒋明镜,贺洁.三维离散元单轴试验模拟甲烷水合物宏观三轴强度特性.岩土力学, 2014, 35(9): 2692-2701.EI收录号:201442103606

91蒋明镜,张望城.一种考虑流体状态方程的土体CFD-DEM耦合数值方法.岩土工程学报, 2014, 36(5): 793-801.EI收录号:20142317792005

90蒋明镜,贺洁,周雅萍.考虑水合物胶结厚度的深海能源土粒间胶结模型研究.岩土力学, 2014, 35(5): 1231-1240.EI收录号:20142317792032

89蒋明镜,贺洁,申志福.甲烷水合物三维离散元模拟参数反演初探.岩土工程学报, 2014, 36(4): 736-744.EI收录号:20141917704087

88蒋明镜,戴永生,王新新,王闯,吴晓峰.一种静力触探模型箱试验装置的研制及其试验研究.岩土力学, 2014, 35(7): 2109-2117.EI收录号:20143118012673

87孙超,刘芳,蒋明镜,陈贺.岩石抗压强度的尺寸效应及端部约束的离散元数值模拟.岩石力学与工程学报, 2014, 33(S2): 3421-3428.EI收录号:20151400716173

86蒋明镜,李立青,刘芳,王闯.应力旋转对同济一号模拟月壤变形特性的影响.同济大学学报(自然科学版), 2013, 41(4): 483-489.EI收录号:20132116362731

85蒋明镜,王新新.不同贯入倾角下TJ-1模拟月壤静力触探模型箱试验研究.岩土工程学报, 2013, 35(8): 1442-1450.EI收录号:20133616709134

84司马军,蒋明镜,周创兵.黏性土干缩开裂过程离散元数值模拟.岩土工程学报, 2013, 35( supp2): 286-291.EI收录号:20140117166037

83蒋明镜,张伏光.考虑胶结厚度影响的结构性砂土三维胶结接触模型.岩土工程学报, 2013, 35( supp2): 1-9.EI收录号:20140117165991

82蒋明镜,李涛,胡海军.结构性黄土双轴压缩试验的离散元数值仿真分析.岩土工程学报, 2013, 35( supp2): 241-246.EI收录号:20140117169374

81蒋明镜,白闰平,刘静德,周雅萍.岩石微观颗粒接触特性的试验研究.岩石力学与工程学报, 2013, 32(6): 1121-1128.EI收录号:20132716471586

80蒋明镜,陈贺,刘芳.岩石微观胶结模型及离散元数值仿真方法初探.岩石力学与工程学报, 2013, 32(1): 15-23.EI收录号:20130615999755

79蒋明镜,贺洁,周雅萍.基于微观胶结厚度模型的深海能源土宏观力学特性离散元模拟.岩土力学, 2013, 34(9): 2672-2682.EI收录号:20134116842016

78蒋明镜,戴永生,张熇,王闯,吴晓峰. TJ-1模拟月壤承载特性的现场试验研究.岩土力学, 2013, 34(6): 1529-1535.EI收录号:20132816484337

77蒋明镜,肖俞,朱方园.深海能源土宏观力学性质离散元数值模拟分析.岩土工程学报, 2013, 35(1): 157-163.EI收录号:20131016089945

76蒋明镜,刘静德,孙渝刚.基于微观破损规律的结构性土本构模型.岩土工程学报, 2013, 35(6): 1134-1139.EI收录号:20132716471623

75蒋明镜,张伏光,孙渝刚.三种胶结岩土材料本构模型中破损规律的离散元验证.岩土工程学报, 2013, 35(5): 805-813.EI收录号:20132516428828

74蒋明镜,孙渝刚,张伏光.基于微观力学的胶结岩土材料破损规律离散元模拟.岩土力学, 2013, 34(7:): 2043-2050.EI收录号:20133216588030

73陈贺,刘芳,蒋明镜.岩质边坡结构面强度参数反演方法.武汉理工大学学报. 2013, 35(1): 99-102.

72蒋明镜,申志福,李立青.双滑移转动率模型对椭圆散粒体的适用性.计算力学学报, 2013, 32(6): 807-814.

71蒋明镜,胡海军,彭建兵.结构性黄土一维湿陷特性的离散元数值模拟.岩土力学, 2013, 34(4): 1121-1130.EI收录号:20132016328568

70蒋明镜,李立青,申志福.双剪类流动模型的非圆形颗粒离散元数值验证.岩土工程学报, 2013, 35(4): 619-626.EI收录号:20132016328511

69蒋明镜,胡海军,彭建兵,申志福,苏佳兴.地裂缝区黄土和充填土持水曲线的测试与计算.同济大学学报(自然科学版), 2013, 4(12): 1795-1801.EI收录号:20130515953786

68蒋明镜,王新新.不同重力场下静力触探试验离散元数值分析.岩土力学, 2013, 34(3): 863-873.EI收录号:20131716237057

67蒋明镜,周雅萍,陈贺.不同胶结厚度下粒间胶结力学特性的试验研究.岩土力学, 2013, 34(5): 1264-1273.EI收录号:20132616448882

66蒋明镜,朱方园,申志福.试验反压对深海能源土宏观力学特性影响的离散元分析.岩土工程学报,2013, 35(2): 219-226.EI收录号20131416175215

65蒋明镜,张望城,王剑锋,密实散粒体剪切破坏能量演化的离散元模拟.岩土力学, 2013, 34(2): 551-558.EI收录号:2013121613110

64蒋明镜,李立青,,苏佳兴,主应力方向和偏应力比对TJ-1模拟月壤各向异性的影响.岩土力学, 2013, 34(1): 6-12+22.EI收录号:20130615999712

63闫超,蒋明镜,张望城,孙德安.结构性砂土海床管道上浮破坏的离散元模拟.岩土力学, 2012, 33(9): 2822-2828.EI收录号:20124315599886

62蒋明镜,郑敏,王闯,月壤双轴试验的剪切带离散元数值分析.岩土力学, 2012, 33(12): 3801-3809.EI收录号:2013041592347

61蒋明镜,张望城,孙渝刚,张伏光.理想胶结砂土力学特性及剪切带形成的离散元分析.岩土工程学报, 2012, 34(12): 2162-2169.EI收录号:20130615996445

60蒋明镜,贺洁,刘芳.基于离散元颗粒抗转模型的平移刚性挡墙被动土压力分析.岩土力学, 2012. 9, 33(9): 2788-2795.EI收录号:20124315599882

59蒋明镜,朱方园,刘芳.两种常用本构模型在基坑开挖数值模拟中的适用性.河海大学学报(自然科学版), 2012. 9, 40(5): 568-575.

58蒋明镜,周雅萍,朱方园,肖俞,陈双林.素混凝土桩复合地基承载机理的离散元分析.水利与建筑工程学报, 2012. 6, 10(3): 1-7.

57蒋明镜,胡海军,彭建兵,杨期君,应力路径试验前后黄土孔隙变化及与力学特性的联系.岩土工程学报, 2012, 34(8): 1369-1378.EI收录号:20124115554083

56蒋明镜,肖俞,朱方园.深海能源土微观力学胶结模型及参数研究.岩土工程学报, 2012, 34(9): 1574-1583.EI收录号:20124415631298

55蒋明镜,张伏光,孙渝刚,张望城.不同胶结砂土力学特性及胶结破坏的离散元模拟.岩土工程学报, 2012, 34(11): 1969-1976.EI收录号:20125115822634

54蒋明镜,李立青,刘芳,苏佳兴.基坑开挖过程中TJ-1模拟月壤变形特性的试验研究.岩土工程学报, 2012, 34(7): 1176-1183.EI收录号:20123615396559

53蒋明镜,肖俞,孙渝刚.水泥胶结颗粒的微观力学模型试验.岩土力学, 2012, 33(5): 1293-1299.EI收录号:20122615179440

52蒋明镜,刘静德,肖俞,胡海军.镇江圌山绍隆禅寺活地成因.山地学报, 2012, 30(1): 93-98.

51张望城,蒋明镜,周雅萍,肖俞.不同位移模式下倾斜挡墙土压力的离散元分析,兰州大学学报, 2011, 47, 188-193.

50肖俞,蒋明镜,孙渝刚.考虑简化胶结模型的深海能源土宏观力学性质离散元数值模拟分析.岩土力学, 2011, 32(1): 755-760.EI收录号:20112114007349

49李立青,蒋明镜,吴晓峰.椭圆形颗粒堆积体模拟颗粒材料力学性能的离散元数值方法.岩土力学, 2011, 32(1): 713-718.EI收录号:20112114007342

48蒋明镜,孙渝刚.结构性砂土粒间胶结效应的二维数值模拟.岩土工程学报, 2011, 33(8): 1246-1253.EI收录号:20113814351300

47蒋明镜,孙渝刚,人工胶结砂土力学特性的离散元模拟.岩土力学, 2011, 6(32): 1849-1856.EI收录号:20112714124382

46蒋明镜,李秀梅,胡海军,含抗转能力散粒体的宏微观力学特性数值分析.计算力学学报, 2011, 28(4): 622-626.EI收录号:20113914375078

45蒋明镜,孙渝刚,李立青,胶结颗粒接触力学特性测试装置研制.岩土力学, 2011, 32(1): 309-315.EI收录号:20111113755298

44蒋明镜,孙渝刚,李立青,复杂应力下两种胶结颗粒微观力学模型的试验研究,岩土工程学报, 2011, 33(3): 354-360.EI收录号:20111513905012

43蒋明镜,李立青, TJ-1模拟月壤的研制,岩土工程学报, 2011, 33(2): 209-214.EI收录号:20111513898921

42蒋明镜,王富周,朱合华,肖俞,松砂直剪试验中的经典与非经典场量数值分析,同济大学学报(自然科学版), 2011, 39(7): 960-965.EI收录号:13051751

41蒋明镜,李立青,王闯,张熇,刘芳,含水率和颗粒级配对TJ-1模拟月壤力学性能影响的试验研究,岩土力学, 2011, 32(7): 1921-1925.EI收录号:20113114207707

40周雅萍,蒋明镜,陈贺.变胶结厚度下胶结颗粒微观模型的初步研究[J].地下空间与工程学报, 2011, 7(05): 890-894.EI收录号:20111513905012

39李立青,蒋明镜,苏佳兴,吴晓峰.制备TJ-1模拟月壤空心圆柱试样的新方法.冰川冻土, 2011, 33(04): 927-932.

38陈贺,蒋明镜,张望城,肖俞.刚性挡土墙平移模式下主动土压力的理论分析.兰州大学学报, 2011, 47, 194-197.

37申志福,蒋明镜,朱方园,胡海军.离散元微观参数对砂土宏观参数的影响.西北地震学报, 2011, 33(S1): 160-165.

36朱方园,蒋明镜,郑敏,吴晓峰.基坑开挖数值模拟方法的对比分析,兰州大学学报, 2011, 47, 231-236.

35申志福,蒋明镜,郑敏.离散元在刚性挡墙基坑开挖数值模拟中的应用,兰州大学学报, 2011, 47, 162-168.

34郑敏,蒋明镜,申志福.简化接触模型的月壤离散元数值分析[J].岩土力学, 2011, 32(S1): 766-771.EI收录号:20133316611614

33蒋明镜,郑敏,胡海军,吴晓峰,逆作法基坑降水开挖对周边环境影响的有限元分析,温州大学学报(自然科学版), 2010, 31: 307-315.

32蒋明镜,肖俞,刘芳.深海能源土开采对海床稳定性的影响研究思路.岩土工程学报, 2010, 32(9): 1412-1416.EI收录号:20104213309804

31蒋明镜,王富周,朱合华,胡海军,赵涛.密实散粒体宏微观特性的直剪试验离散元数值分析,河海大学学报(自然科学版), 2010, 38(5): 538-544.

30蒋明镜,王富周,朱合华.考虑尾隙的盾构隧道土压力离散元数值分析,地下空间与工程学报, 2010, 6(1): 28-32.

29李秀梅,蒋明镜.两种位移模式下挡土墙主动土压力的离散元模拟,地下空间与工程学报, 2010, 6(1): 60-64.

28蒋明镜,李秀梅.双轴试验中砂土剪切带形成的离散元模拟分析,山东大学学报, 2010, 40(2): 52-58.

27蒋明镜,胡海军.密实和松散颗粒材料等吸力三轴剪切试验离散元数值模拟,中南大学学报(自然科学版), 2010, 41(6): 2350-2359.EI收录号:20110913712464

26蒋明镜,郑敏,刘芳,王闯,张熇.颗粒级配对火山灰力学特性影响的试验研究.扬州大学学报(自然科学版), 2010, 13(1): 57-61.

25蒋明镜,彭立才,朱合华,林奕禧,黄良机.珠海海积软土剪切带微观结构试验研究,岩土力学, 2010, 7(31): 2017-2023.EI收录号:20103113111131

24蒋明镜,肖俞,陈双林,胡海军,吴晓峰.砂土中单桩竖向抗压承载机制的离散元分析.岩土力学, 2010, 31(S2): 366-372.EI收录号:20105213524171

23蒋明镜,王富周,朱合华.单粒组密砂剪切带的直剪试验离散元数值分析.岩土力学, 2010, 31(01): 253-257+298.EI收录号:20101012752530

22彭立才,蒋明镜,朱合华,林奕禧,黄良机,珠海海积软土孔隙分布与应力水平的关系及成因分析,同济大学学报, 2009, 37(120): 1598-1602.EI收录号:20101612869158

21蒋明镜,孙渝刚,考虑砂土颗粒破碎的圆孔扩张半解析分析,岩土工程学报, 2009, 31(11): 1645-1651.EI收录号:20095112567570

20蒋明镜,李秀梅,孙渝刚,胡海军.考虑颗粒抗转动的砂土双轴试验离散元模拟.岩土力学, 2009, 30(S2): 514-517.

19蒋明镜,郑敏,王闯,张熇,李立青.不同颗粒级配的某火山灰的力学性质试验研究.岩土力学, 2009, 30(S2): 64-66.

18胡海军,蒋明镜,赵涛,彭建兵,李红.制样方法对重塑黄土单轴抗拉强度影响的初探.岩土力学, 2009, 30(S2): 196-199.

17彭立才,蒋明镜,朱合华,林奕禧,黄良机.珠海地区软土微观结构类型及定量分析研究.水利学报, 2007(S1): 687-690.

16蒋明镜,用于触探试验分析的粒状材料本构模型之展望.岩土工程学报, 2007, 29(9): 1281-1288.EI收录号:20074410900435

15蒋明镜.关于饱和土的应力传递机理与有效应力原理讨论.岩土工程学报, 2001, 23(6): 774-775.

14蒋明镜,沈珠江,赵魁芝, Hongo,赤井俊文,陈国华.结构性黄土湿陷性指标室内测定方法的探讨.水利水运科学研究, 1999(01): 65-71.

13蒋明镜,沈珠江,邢素英,徐锡荣.结构性粘土研究综述.水利水电科技进展, 1999(01): 26-30+70.

12蒋明镜,本乡隆夫.非饱和膨胀土的三轴试验研究讨论.岩土工程学报, 1998, 20(6): 125-126.

11蒋明镜,沈珠江.饱和软土的弹塑性大变形有限元平面固结分析.河海大学学报, 1998, 26(1): 73-77.

10蒋明镜,沈珠江.理想弹塑性材料有限元计算算法比较研究.水利水运科学研究, 1998, 1: 28-37.

9蒋明镜,沈珠江.结构性粘土试样人工制备方法研究.水利学报, 1997, 1: 56-61.EI收录号:1997123975637

8蒋明镜,沈珠江.考虑剪胀的线性软化柱孔扩张问题.岩石力学与工程学报, 1997, (6): 550-557.

7蒋明镜,沈珠江.第二届国际软土工程会议基坑工程与土坡稳定专题综述.水利水电科技进展, 1997, (1): 34-37.

6蒋明镜,沈珠江.岩土类软化材料的柱形孔扩张统一解问题.岩土力学, 1996, (1): 1-8.

5蒋明镜,沈珠江.考虑材料软化特性的地基承载力分析计算.水利水运科学研究, 1996, (01): 42-47.

4蒋明镜,沈珠江.考虑剪胀的弹脆塑性软化球形孔扩张问题.江苏农学院学报, 1996, (1): 83-90.

3蒋明镜,沈珠江.考虑剪胀的弹脆塑性软化柱形孔扩张问题.河海大学学报, 1996, (4): 65-72.

2蒋明镜,沈珠江.考虑材料软化特性的地基承载力分析计算.水利水运科学研究, 1996, 2: 42-47.

1蒋明镜,沈珠江.考虑材料应变软化的柱形孔扩张问题.岩土工程学报, 1995, 17(4): 10-19.

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