土木与环境工程学院教师个人简历 一、基本情况 姓名： 熊勇林职称/职务： 副教授 学位/学历： 工学博士、博士后政治面貌： 群众 研究领域： 岩土本构关系、THM 多场耦合理论、岩土数值计算所在硕士点（方向）：岩土工程 所在研究所: 岩土工程 二、主要学习和工作经历： 学历经历： 2011.04-2014.03 日本国立名古屋工业大学 岩土工程 工学博士 2009.04-2011.03 日本国立名古屋工业大学 岩土工程 工学硕士 2004.09-2008.07 湖南科技大学 采矿工程 工学学士 工作经历： 2016.12-至今 宁波大学 副教授 2014.05-2016.11 同济大学 博士后 三、主持或参与的科研项目 1、岩土材料热软化与热硬化力学特性的统一本构模型研究，国家自然科学基金青年项目，资助编号：51608385，主持， 2017.1.1-2019.12.30. 2、统一非饱和/饱和土热水力耦合本构模型研究，国家博士后基金，资助编号： 2015M571604，主持， 2014.5-2016.12. 3、考虑温度影响的岩土材料弹塑性本构模型研究，宁波大学人才引进项目，主持， 2016.12-2021.12. 4、火灾高温下饱和软黏土热-水-汽-力多场耦合特性及对隧道结构安全的影响，国家自然科学基金面上项目：资助编号：51478345，参与，2015.1.1-2018.12.30. 5、长期热循环下桩土力学特性及作用机理研究，国家自然科学基金面上项目，资助编号：51478228，参与，2015.1.1-2018.12.30. 6、 参与上海申通地铁科研项目： 地铁荷载作用下隧道周边软黏土的力学特性及长期沉降研究。 四、学术著作 1、期刊论文 [1] Yadav, S K., Ye, G.L. , Xiong, Y. L., Khalid, U.(2020): Unified numerical study of shallow foundation on structured soft clay under unconsolidated and consolidated-undrained loadings, Marine Georesources And Geotechnology, 38(4):400-416. (SCI, 通讯作者) [2] Xiong, Y.L., Yang, Q.L., Sang, Q.Y., Zhu, Y.H., Zhang, S., Zheng, R.Y. (2019): A unified thermal-hardening and thermal-softening constitutive model of soils, Applied Mathematical Modelling, 74:73–84 (SCI). [3] Xiong, Y.L., Ye G.L., Xie, Y., Ye B., Zhang, S., Zhang, F.(2019): A unified constitutive model for unsaturated soil under monotonic and cyclic loading, Acta Geotechnica, 14:313–328 (SCI) [4] Xiong, X., Xiong, Y.L., Tsunemoto, T., Okino, S., Qiu, X., Kurimoto, Y., Zhang, F.(2019): Tests on mechanical behavior of unsaturated decomposed granite and its modelling considering finite deformation, Soils and foundations, 59(2):253-270. (SCI, 通讯作者) [5]Xiong, Y.L., Bao Y.F., Ye G.L., Ye B., Zhang F. (2018): 3D dynamic analysis of the soil–foundation–superstructure system considering the elastoplastic finite deformation of both the soil and the superstructure, Bulletin of Earthquake Engineering，16 (5) :1909-1939 (SCI) [6] Xiong, Y.L., Yang, Q.L., Zhang, S., Ye, G.L., Liu, G.B., Zheng, R.Y., Zhang, F. (2018): Thermo-elastoplastic Model for Soft Rock Considering Effects of Structure and Overconsolidation, Rock Mechanics and Rock Engineering, 51:3771–3784. (SCI) [7] Xiong, Y.L., Liu, G.B., Zheng, R.Y., Bao X.H. (2018): Study on dynamic undrained mechanical behavior of saturated soft clay considering temperature effect, Soil Dynamics and Earthquake Engineering，115，673-684 (SCI) [8] Xiong, Y.L., Ye, G.L., Zhu, H.H., Zhang, S. and Zhang, F.(2017): A unified thermo-elasto-viscoplastic model for soft rock, International Journal of Rock Mechanics and Ming Sciences, 93, 1365-1609. (SCI) [9] Xiong, Y.L., Ye, G.L., Zhu, H.H., Zhang, S. and Zhang, F.(2016): Thermo-elastoplastic Constitutive Model for Unsaturated Soils, Acta Geotechnica, 11, 1861-1125. (SCI) [10] Xiong, Y.L., Zhang, S., Ye, G.L., Zhang, F.(2014):Modification of thermo-elasto-viscoplastic model for soft rock and its application to THM analysis on heating tests, Soils and Foundations, 54(2):176–196. (SCI) [11] Xiong, Y.L., Bao, X.H., Ye, B., and Zhang, F.(2014): Soil-water-air coupling finite element analysis on slope failure in unsaturated ground, Soils and Foundations, 54(3), 377-395. (SCI) [12] Zhang S., Xu S., Teng J., Xiong, Y.L.(2016): Effect of temperature on the time-dependent behavior of geomaterials, Comptes Rendus Mécanique, 344(8):603-611. (SCI) [13] Zhang, S., Leng, W., Zhang, F., Xiong, Y.L.(2012): A simple thermo-elastoplastic model for geomaterials, International Journal of Plasticity, Vol.34, 93-113 (SCI) [14] Zhang F, Xiong Y.L., Zhang S. and Ye B.(2014): Thermo-hydraulic-mechanical-air coupling finite element method and its application to multi-phase problems, Journal of Rock Mechanics and Geotechnical Engineering, 6, 77-98. (SCI) [15] Xiong, Y.L., Bao, X.H., and Zhang, F.(2013): Soil-water-air coupling finite element analysis of model test on slope failure in unsaturated soil, Geotechnical Engineering Journal of the SEAGS&AGSSEA, Vol.44, No.2, ISSN 0046-5828, 1-8. [16] Zhang, S., Nakano, H., Xiong, Y.L., Nishimura, T. and Zhang F.(2010): Temperature-controlled triaxial compression/creep test device for thermodynamic properties of soft sedimentary rock and corresponding theoretical prediction, Journal of Rock Mechanics and Geotechnical Engineering, 2(3): 255-261. (SCI) [17] 杨骐莱，熊勇林，张升，刘干斌，郑荣跃：考虑温度影响的软岩弹塑性本构模型， 岩土力学，2019, 40(5):1898-1906. (指导学生第一作者) [18] 汪俊敏，熊勇林，杨骐莱，桑琴扬，黄强：不饱和土动弹塑性本构模型研究，岩土力学，2019, 40(6):2323-2331. (指导学生第一作者) [19] 熊勇林，朱合华，叶冠林，叶斌：降雨入渗引起非饱和土边坡破坏的水-土-气三相渗流-变形耦合有限元分析，岩土力学, 2017, 38(1):284-290. (EI) [20] 熊勇林，朱合华，张升， 叶冠林，张锋： 考虑围压效应的修正软岩热弹黏塑性本构模型，岩石力学与工程学报, 2016, 35(2):225-230. (EI) [21] 张升，徐硕，熊勇林，张锋：软岩热-弹-粘-塑性本构模型，岩土工程学报，2016, 38(12) , 2278-2286. (EI) [22] 于亚磊，叶冠林，熊勇林：上海第 4 层黏土力学特性的弹塑性本构模拟，岩土力学， 2016, 37(9):2541-2546 (EI). 2、会议论文 [1] Xiong, Y.L., Zhang, F., Nishimura. T., Kurimoto, Y. (2013): THM simulations for laboratory heating test and real-scale field test, Proc. of the 18th International Conference on Soil Mechanics and Geotechnical Engineering (ICSMGE), Paris, France, Vol.4, 3419-3422, 2013.9.2-2013.9.5. [2] Xiong, Y.L., Zhang, S., Ye, B., Li, Y.Q. and Zhang, F., Thermo-Hydraulic-Mechanical Coupling Analysis on Heating Test in Unsaturated Ground, Geo-shanghai, Shanghai, China, 2014.5.26-5.28. [3] Xiong, Y.L., Bao, X. and Zhang F., 2D numerical simulation of model test on slope failure due to rainfall based on a rational constitutive model for unsaturated soil, Proc. of 5th China-Japan Geotechnical Symposium, Chengdu, Sichuan, China, 2013.5.18-5.19. [4] Xiong, Y.L., Zhang F., Nishimura T., kurimoto Y., THM simulation for real-scale field test, New Frontiers in Engineering Geology and the Environment, Shanghai, China, 2012.9.20-9.21. [5] Xiong, Y. L., Zhang, F. and Li, Y. Q., Numerical study on thermo-hydro-mechanical-air coupling phenomena in unsaturated ground, Proc. International Conference 14IACMAG, Computer Methods and Recent Advances in Geomechanics, Kyoto, Japan, 2014.9.22-9.25. [6] Li, Y.Q., Jing, L.P., Xiong, Y.L., Gu, L.L., Zhang, F., 3D dynamic interaction between earth dam and uneven liquefiable sandy ground based on CM model, Proc. International Conference 14IACMAG, Computer Methods and Recent Advances in Geomechanics, Kyoto, Japan, 2014.9.22-9.25. [7] Xiong, Y. L., Kurimoto, Y. and Zhang, F., A thermo-elastoplastic constitutive model for unsaturated/saturated geomaterials, Proc. 8th Asian Rock Mechanics Symposium, Sapporo, Japan, 2014.10.14-10.16 五、获奖与荣誉 1、日本地盘工学会第 18 届国际土力学及岩土工程会议青年优秀论文奖, 日本地盘工学会，排名 1，2013. 六、 学术兼职 1、浙江省力学学会土力学与岩土工程专业委员会委员 2、日本地盘工学会会员 七、承担课程 1、岩土工程数值计算 研究生 2、挡土结构与基坑工程 本科生 3、土力学与地基基础 本科生 （数据截至日期：2020 年 11 月 1 日）