朱其志

朱其志，教授、博士生導師，學院副院長。2000年本科畢業于河海大學，2006年博士畢業于法國裡爾科技大學，法國科研中心（CNRS）裡爾力學研究所（LML）以及多尺度模拟與仿真研究所（MSME）博士後，2010年9月受聘巴黎東部大學副教授，2012年10月至今為河海大學岩土工程國家重點學科教授、博士生導師，研究方向為岩石多尺度多場耦合特性室内試驗與理論模型、細觀損傷力學、岩土體本構關系、工程計算方法以及岩體工程數值模拟與仿真。入選國家人才項目1項和省級人才計劃項目2項，主持國家自然科學基金項目3項、國家重點研發計劃子課題1項以及重點橫向合作課題1項。創新研究主要包括：1.形成了較為系統的岩石多場耦合多尺度損傷本構理論研究體系，提出了業内領先的5參數損傷-摩擦耦合各向異性本構模型；2. 創新強度-變形耦合分析方法，提出了基于細觀裂隙機理的岩石強度準則，建立了參數跨尺度聯系和塑性-損傷本構方程的若幹解析解，從理論上揭示了岩石破壞的臨界損傷和變形特征以及拉剪破壞的過渡特性；3. 緻力于解決數值分析中的網格依賴性，在多種非局部計算方法研究中做出了理論/數值貢獻。

發表SCI檢索學術論文78篇，其中IJES期刊論文2篇（IF=9.052）、JMPS期刊論文2篇、IJP期刊論文7篇和CMAME期刊論文5篇，個人H-index=23，出版專著《多尺度岩石損傷力學》（科學出版社，2019）；獲教育部和江蘇省自然科學獎二等獎各1項（排名1、2），獲中國岩石力學與工程學會青年科技獎金獎（2018年）、首屆黃文熙-陳宗基岩土力學獎岩體力學青年獎（2019年），授權發明專利10餘項。

曾擔任國家基金委“十四五”學科規劃戰略報告E0905編寫組秘書長。目前兼任《岩石力學與工程學報》編委、《Water Sciences and Engineering》編委，《Engineering》土建水學科青年編委，《J. Rock Mechanics and Geotechnical Engineering》科學編輯、科學出版社“岩土多場多尺度力學叢書”副主編。曾擔任European Journal of Environmental and Civil Engineering特刊編輯。社會兼職包括岩石力學與工程學會多場耦合專委會副主任委員兼秘書長、青年工作委員會副主任委員以及河海大學僑聯副主席等。

n 主講課程

    1. 岩石力學

    2. 高等岩石力學：岩石損傷力學

3. 岩土數值方法（有限單元法理論與編程）

n 研究方向

    1. 岩石多尺度多場耦合特性室内試驗與理論模型

    2. 細觀損傷力學

    3. 岩土體本構關系

    4. 工程計算方法（XFEM、近場動力學、無網格法、相場法等）

    5. 岩土工程軟件與數值實驗平台

n 代表性論文論著（*表示通訊作者，#表示在讀博士生）

1. 朱其志，《多尺度岩石損傷力學》，科學出版社，2019.3

2. Qizhi Zhu, Jianfu Shao. A Semi-empirical Failure Criterion for Brittle Rocks. Rock Mechanics and Rock Engineering 2020 accepted for publication DOI: 10.1007/s00603- 020-02125-z.

3. Kun Zhang#, Tao Ni, Giulia Sarego, Mirco Zaccariotto, Qizhi Zhu*, Ugo Galvanetto. Experimental and numerical fracture analysis of the plain and polyvinyl alcohol fiber-reinforced ultra-high-performance concrete structures. Theoretical and Applied Fracture Mechanics 2020, 108, 102566.

4. T You#, QZ Zhu*, PF Li, JF Shao. Incorporation of tension-compression asymmetry into plastic damage phase-field modeling of quasi brittle geomaterials. International Journal of Plasticity. 2020, 124: 71-95

5. SS Yuan#, QZ Zhu*, LY Zhao, L Chen, JF Shao, J Zhang. Micromechanical modelling of short-and long-term behavior of saturated quasi-brittle rocks. Mechanics of Materials, 2020, 103298

6. WJ Li#, QZ Zhu*, T Ni. A local strain-based implementation strategy for the extended peridynamic model with bond rotation. Computer Methods in Applied Mechanics and Engineering. 2020, 358, 112625

7. T Ni#, M Zaccariotto, QZ Zhu*, U Galvanetto. Coupling of FEM and ordinary state-based peridynamics for brittle failure analysis in 3D. Mechanics of Advanced Materials and Structures, 2019 avaible online.

8. Tao Ni#, Mirco Zaccariotto, Qi-Zhi Zhu*, Ugo Galvanetto. Static solution of crack propagation problems in Peridynamics. Computer Methods in Applied Mechanics and Engineering 2019, 346: 126-151.

9. Lun-Yang Zhao#, Jian-Fu Shao, Qi-Zhi Zhu. Analysis of localized cracking in quasi-brittle materials with a micro-mechanics based friction-damage approach. Journal of the Mechanics and Physics of Solids 2018, 119: 163-187.

10. Hu K#, Zhu QZ*, Chen L, Shao JF, Liu J. A Micromechanics-based Elastoplastic Damage Model for Rocks with a Brittle-Ductile Transition in Mechanical Response. Rock Mechanics and Rock Engineering 2018, 51(6): 1729-1737.

11. Ni Tao#, Zhu QZ*, Zhao LY, et al. Peridynamic simulation of fracture in quasi brittle solids using irregular finite element mesh. Engineering Fracture Mechanics 2018, 188: 320-343.

12. Sun YF, Gao YF, Zhu QZ*. Fractional order plasticity modelling of state-dependent behaviour of granular soils without using plastic potential. International Journal of Plasticity 2018, 102(3):53-69.

13. Zhao LY#, Zhu QZ, Shao JF. A micro-mechanics based plastic damage model for quasi-brittle materials under a large range of compressive stress. International Journal of Plasticity 2018, 100: 156-176.

14. Zhu QZ*, Ni T. Peridynamic formulations enriched with bond rotation effects. International Journal of Engineering Science 2017, 121:118-129.

15. Zhu QZ *, Yuan SS, Shao JF. Bridging meso- and microscopic anisotropic unilateral damage formulations for microcracked solids. Comptes Rendus Mécanique (法國科學院力學通報) 2017, 345(4): 381-392.

16. Zhu QZ*, Shao JF. Micromechanics of Rock Damage: Advances in the quasi brittle field. Journal of Rock Mechanics and Geotechnical Engineering 2017, 9: 29-40.

17. Zhu QZ*. A New Rock Strength Criterion from Microcracking Mechanisms Which Provides Theoretical Evidence of Hybrid Failure. Rock Mechanics and Rock Engineering 2017, 50: 341-352.

18. Zhu QZ, Zhao LY, Shao JF. Analytical and numerical analysis of frictional damage in quasi brittle materials. Journal of the Mechanics and Physics of Solids 2016, 92: 137- 163.

19. Zhu QZ* Strength prediction of dry and saturated brittle rocks by unilateral damage- friction coupling analyses. Computers and Geotechnics 2016, 73: 16-23.

20. Zhao LY#, Zhu QZ*, Xu WY, Dai F, Shao JF. A unified micromechanics-based damage model for instantaneous and time-dependent behaviors of brittle rocks. International Journal of Rock Mechanics and Mining Sciences 2016, 84: 187-196.

21. Zhu QZ*, Yvonnet J. An incremental–iterative method for modeling damage evolution in voxel-based microstructure models. Computational Mechanics 2015, 55(2): 371-382.

22. Zhu QZ*, Shao JF. A refined micromechanical damage–friction model with strength prediction for rock-like materials under compression. International Journal of Solids and Structures 2015, 60-61:75-83.

23. Zhu QZ. On enrichment functions in the extended finite element method. International Journal for Numerical Methods in Engineering 2012, 91: 186-217.

24. Zhu QZ, Shao JF, Kondo D. A micromechanics-based thermodynamic formulation of isotropic damage with unilateral and friction effects. European Journal of Mechanics A - Solids 2011, 30: 316-325

25. Zhu QZ, Shao JF, Mainguy M. A micromechanics-based elastoplastic damage model for granular materials at low confining pressure. International Journal of Plasticity 2010, 26: 586-602.

26. Zhu QZ, Kondo D., Shao JF. Homogenization-based analysis of anisotropic damage in brittle materials with unilateral effect and interactions between microcracks. International Journal for Numerical and Analytical Methods in Geomechanics 2009, 33(6): 749-992.

27. Zhu QZ, Shao JF, Kondo D. Micromechanical modelling of anisotropic damage in brittle rocks and applications. International Journal of Rock Mechanics and Mining Sciences 2008, 45: 467-477.

28. Zhu QZ, Shao JF, Kondo D. A micromechanics-based non-local anisotropic model for unilateral damage in brittle materials. Comptes Rendus Mécanique 2008, 336: 320-328.

29. Zhu QZ, Kondo D., Shao JF. Micromechanical analysis of coupling between anisotropic damage and friction in quasi brittle materials: role of the homogenization scheme. International Journal of Solids and Structures 2008, 45(5): 1385-1405.

30. Shao JF, Zhu QZ, Su K. Modeling of creep in rocks materials in terms of materials degradation. Computers and Geotechnics 2003, 30: 549-555.

n 研究生培養

采用專業集中授課與課題組專門培訓相結合的方式，尤其注重學生理論掌握和科研素養提升。近五年培養的博士生中，2篇論文獲評“呂志濤院士優秀博士論文”、1篇論文獲評“中國力學與工程學會優秀博士論文”、1篇論文獲評“河海大學優秀博士學位論文”；1人入選“中德博士後交流項目”；7人次獲國家研究生獎學金。

每年招收碩士研究生3名，博士生2名。

n 聯系方式：qizhi_zhu@163.com， QQ：24872671