基本信息

姓名：胡小飞

出生年月：1986年2月

学位：博士

职称：教授、博士生导师

研究领域：断裂过程的机理解释及模拟

招收研究生专业：力学、工程力学、固体力学、计算力学

E-mail：XiaofeiHu@cumt.edu.cn

个人简介

胡小飞，男，本科及博士毕业于大连理工大学工程力学系，曾在大连理工大学、斯伦贝谢、新加坡国立大学任职。连续主持3项国家自然科学基金项目(2个面上，1个青年)，主持国家重点研发计划子课题1项、院所委托重大装备研发课题5项，参与完成了重点研发、国家自然科学基金等5项课题。发表了60篇SCI论文及国内首部相场法专著《断裂相场法》。文章发表在力学领域顶尖期刊“Computer Methods in Applied Mechanics and Engineering”，断裂力学著名期刊“Engineering Fracture Mechanics”及中科院TOP期刊“Composite Structures, International Journal of Mechanical Science, Applied Mathematical Modelling”上。研究成果应用到国家重大装备的研发中，被列入国家重点实验室的年度报告。

教育经历

2008/09-2012/12， 大连理工大学，工程力学系，固体力学，博士

2004/09-2008/07， 大连理工大学，工程力学系，学士；

科研、学术与访学工作经历

2025/04-至今 中国矿业大学，深地工程智能建造与健康运维全国重点实验室，教授；

2018/01-2025/04， 大连理工大学，工程力学系，副教授，博士生导师；

2015/05-2017/05， 新加坡国立大学，机械工程系，博士后，合作导师：Tong-Earn Tay教授；

2015/02-2017-12， 大连理工大学，工程力学系，讲师；

2013/01-2014/10， 斯伦贝谢(Schlumberger)，石油/天然气钻井动力学模拟中心(BDDC), 高级工程师；

主持或科研项目及人才计划项目情况

2023-2026，钢筋混凝土锈胀开裂的相场法, 国家自然科学基金，面上项目，主持，71万；

2019-2023，低渗油气层水力压裂三维正交型裂纹扩展、交叉模拟的新型扩展有限元，国家自然科学基金，面上项目，主持，67万；

2016-2019，热冲击作用下裂纹扩展数值计算的解析奇异单元，国家自然科学基金，青年基金，主持，26万；

2023-2026，CAE通用求解器，国家重点研发计划子课题，主持，150万；

2018-2019，大连市青年科技之星人才经费，主持，10万；

2018-2019，大连理工大学星海学者人才经费，优青级别，主持，80万；

2017-2018，大连理工大学星海学者人才经费，骨干级别，主持，20万；

2023-2024，武器装药准脆性破坏相场模型，中国工程物理研究院，横向委托，主持；

2023-2024，轨道交通车辆用国产碳纤维/铝合金层板结构设计、制备及试验验证，中车集团，横向委托，主持；

2022-2023，卷曲疲劳仿真项目，无锡瑞来检测科技有限公司，横向委托，主持；

2020-2021，环境仿真试验，北京卫星环境工程研究所，横向委托，主持；

2015-2016，IXXX-6卫星力学试验数据管理软件，北京卫星环境工程研究所，横向委托，主持；

2021-2022，中央高等院校理科基础科研经费，主持，7万；

2018-2019，中央高等院校理科基础科研经费，主持，10万；

2022-2025，基于多尺度仿真的热结构设计与服役行为分析技术，国家重点研发计划子课题，参与（排名第二，承担材料多尺度分析的工作），148万，参与；

2022-2023，一回路690合金焊接区应力腐蚀开裂试验和预测模型研究，中国核动力研究设计院，横向委托，参与（排名第二，承担破坏分析的工作），185万，参与；

2017-2021，《数值飞行器原型系统开发》第二课题“结构有限元高性能分析算法研究及软件开发”，国家“十三五”重点研发计划，高性能计算重点专项，参与，478万，参与；

2018-2022，变刚度复合材料板壳结构的等几何分析与混合可靠性优化，国家自然科学基金, 面上项目，参与；

2017-2021，时域径向积分边界元法在相变传热问题中的应用，国家自然科学基金，面上项目，参与；

学术活动组织

1. 胡小飞, 江苏省首届深地能源开发存储与安全大会, China Rock 2024 徐州中心会场, 2024-11, 徐州 (学术委员会委员)

2. 胡小飞, 第二届环境、地质与岩土工程国际研讨会, 2024-11, 杭州 (大会学术委员会委员)

3. 胡小飞, 国际计算与试验工程科学会议(ICCES31)，2025-05，长沙（分会场主席）

4. 胡小飞，考虑岩石破坏行为的相场模型及其在水力压裂中的应用，第二届环境、地质与岩土工程国际研讨会,2024-11, 杭州 (邀请报告)

5. 胡小飞, 国际计算与试验工程科学会议(ICCES30)，2024-08，新加坡（分会场主席）

6. 胡小飞，Mesoscopic phase field modelling of progressive damage in hydroxyl-terminated polybutadiene (HTPB) propellant of solid rocket motors, 2024年国际计算与试验工程科学会议，2024-08，新加坡 (邀请报告)

7. 胡小飞, 多物理场耦合的相场模型在陶瓷材料破坏中的应用, 第三届损 伤与断裂力学及其工程应用研讨会, 2023-11, 合肥 (邀请报告)

8. 胡小飞, 全国固体力学学术会议，2024-03，南京 (分会场主席)

9. 胡小飞, 中国力学大会分会场，2019-10，杭州 (分会场主席)

10. 胡小飞, 中国计算力学大会，2023-08，大连 (分会场主席)

代表性论文

1. 胡小飞，张鹏，姚伟岸，断裂相场法，科学出版社，2022

2. 胡小飞, 龙震华, 孙直. 含超薄胶层柔性屏折叠行为的数值模拟. 工程力学,

3. Tran HT, Chen S, Hu XF, Bui TQ. A rate-dependent implicit gradient damage model with energy limiter: Ductile fracture analysis and determination of the physical length scale. Mechanics of Materials, 2025: 105310.

4. Hu XF, Tan S, Xu H, Sun Z, Wang T, Min L, Wang ZL, Yao WA, Modelling high temperature progressive failure in C/SiC composites using a phase field model: Oxidation rate controlled process, Computer Methods in Applied Mechanics and Engineering, 2025, 433: 117544

5. Wang T, Sun Z, Hu XF(*), Zhang P, Yao WA. Simulation of progressive failure process in solid rocket propellants using a phase-field model. Engineering Fracture Mechanics, 2024, 312: 110577.

6. Hu Q, Yang S, Xi X, Shipton ZK, Minto J, Hu XF. In-situ X-ray micro-CT quantitative analysis and modelling the damage evolution in granite rock. Theoretical and Applied Fracture Mechanics, 2024, 133: 104589.

7. Li J, Yao W, Lu Y, Chen J, Sun Y, Hu XF. High fidelity FEM based on deep learning for arbitrary composite material structure. Composite Structures, 2024, 340: 118176.

8. Vuong CD, Hu XF, Bui TQ. A dynamic description of the smoothing gradient damage model for quasi-brittle failure. Finite Elements in Analysis and Design, 2024, 230: 104084.

9. Min L, Wang Z, Hu XF(*), Zhao D, Sun Z, Zhang P, Yao WA, Bui TQ. A chemo-thermo-mechanical coupled phase field framework for failure in thermal barrier coatings. Computer Methods in Applied Mechanics and Engineering, 2023, 411: 116044.

10. Hu XF(*), Tan S, Xia D,.Min L, Xu HQ, Yao WA, Sun Z, Zhang P, Bui TQ, Zhuang XY, Rabczuk T. An overview of implicit and explicit phase field models for quasi-static failure processes, implementation and computational efficiency. Theoretical and Applied Fracture Mechanics, 2023: 103779.

11. Wang Z, Yao W, Hu XF. A novel isogeometric boundary element approach for solving phase change problems with the level set method. International Journal of Thermal Sciences, 2022, 181: 107763.

12. Zhou S, Ma Y, Sun Z, Hu XF(*). A novel super symplectic analytical singular element for crack propagation along a bimaterial interface. Theoretical and Applied Fracture Mechanics, 2022, 122: 103565.

13. Zhang P, Tan S, Hu XF(*), Yao WA, Zhuang XY. A double-phase field model for multiple failures in composites. Composite Structures, 2022, 293: 115730.

14. Min L, Hu XF(*), Yao WA, Bui TQ, Zhang P. On realizing specific failure initiation criteria in the phase field model. Computer Methods in Applied Mechanics and Engineering, 2022, 394: 114881.

15. Hu XF, Xu HQ, Xi X, Zhang P, Yang ST, Meso-scale phase field modelling of reinforced concrete structures subjected to corrosion of multiple reinforcements. Construction and Building Materials, 2022, 321: 126376.

16. Wang Z, Yao WA, Hu XF. A precise time-domain expanding boundary element method based on enthalpy formulation for non-isothermal phase change problems. Engineering Analysis with Boundary Elements, 2022, 136: 116-130.

17. Bui TQ, Tran HT, Hu XF, Wu CT. Simulation of dynamic brittle and quasi-brittle fracture: a revisited local damage approach. International Journal of Fracture, 2022: 1-27.

18. Wang Z, Yao W, Hu XF. A novel isogeometric boundary element approach for solving phase change problems with the level set method. International Journal of Thermal Sciences, 2022, 181: 107763.

19. Hu XF, Li J, Chen W, Bui TQ, Yao WA. A Precise Time-Domain Expanding Crack-Tip Element for 3D Planar and Axial Dynamic Cracks. International Journal of Computational Methods, 2021: 2150071.

20. Wang Z, Yao W, Zuo C, Hu XF. Solving phase change problems via a precise time-domain expanding boundary element method combined with the level set method. Engineering Analysis with Boundary Elements, 2021, 126: 1-12.

21. Hu XF(*), Li J, Zhang P, Yao WA. An oblique circular cylinder element for 3D interfacial cracks in composites. Engineering Fracture Mechanics, 2021: 107839.

22. Hu XF, Huang X, Yao WA, Zhang P. Precise integration explicit phase field method for dynamic brittle fracture. Mechanics Research Communications, 2021, 113: 103698.

23. Bui TQ, Hu XF(*). A review of phase-field models, fundamentals and their applications to composite laminates. Engineering Fracture Mechanics, 2021, 107705.

24. Yao H, Yao W, Zuo C, Hu XF. Radial integral boundary element method for simulating phase change problem with mushy zone. Applied Mathematics and Mechanics, 2021, 42: 1155-1170.

25. Hu XF, Zhang P, Yao WA(*). Phase field modelling of microscopic failure in composite laminates. Journal of Composite Materials, 2020: 0021998320976794.

26. Zhang P, Hu XF(*), Yao WA, Bui TQ. An explicit phase field model for progressive tensile failure of composites. Engineering Fracture Mechanics, 2020, 107371.

27. Zhang P, Yao WA, Hu XF (*), Zhuang XY. Phase field modelling of progressive failure in composites combined with cohesive element with an explicit scheme. Composite Structures, 2020, 113353.

28. Zhang P, Yao W, Hu XF(*), Bui, TQ. 3D micromechanical progressive failure simulation for fiber-reinforced composites. Composite Structures, 2020: 112534.

29. Hu XF, Chen WH, Zhang P, Yao WA. A new crack-tip singular element for cracks in three-dimensional elastic bodies. Engineering Fracture Mechanics, 2020: 107148.

30. Zhang P, Feng YQ, Bui TQ, Hu XF(*), Yao WA. Modelling Distinct Failure Mechanisms in Composite Materials by a Combined Phase Field Method. Composite Structures, 2020: 111551.

31. Hu XF(*), Ding X, Zhao YG, Yao WA, On a symplectic analytical singular element for cracks under thermal shock considering heat flux singularity, Applied Mathematical Modelling, 2020, 80: 1-16.

32. Fu Q, Yi SN, Chen BY, Bui TQ, Hu XF(*), Yao WA(*), A crack-tip element for modelling arbitrary crack propagations, Theoretical and Applied Fracture Mechanics, 2020, 105: 102422.

33. Hu XF(*), Chen WH, Zhang P, Yao WA, An explicit crack-tip element for stationary dynamic cracks, Theoretical and Applied Fracture Mechanics, 2021, 112: 102886.

34. Hu XF(*), Ding X, Bui TQ, Yao WA, Precise integration symplectic analytical singular element for cracks analysis under transient thermal conduction, International Journal of Applied Mechanics, 2020, 12: 2050005.

35. Hu XF(*), Ding X, Zhao YG, Yao WA. Thermal-mechanical Fracture Analysis Considering Heat Flux Singularity. ASME-Journal of Heat Transfer, 2019, 141: 121001

36. Zhang P, Hu XF(*), Bui TQ, Yao WA, Phase field modeling of fracture in fiber reinforced composite laminate, International Journal of Mechanical Science, 2019, 161-162: 105008. (SCI, EI)

37. Zhang P, Hu XF(*), Yang S, Yao WA. Modelling Progressive Failure in Multi-Phase Materials Using A Phase Field Method. Engineering Fracture Mechanics, 2019, 209: 105-124.

38. Jin QL, Mao ZM, Hu XF, Yao WA(*), Thermo-mechanical analysis of multilayered composite beams based on a new mixed global-local model, Journal of Composite Materials. 2019: 0021998319851839.

39. Li X, Yao WA(*), Hu XF, Jin QL, Interfacial crack analysis between dissimilar viscoelastic media using symplectic analytical singular element, Engineering Fracture Mechanics, 2019, 219: 106628.

40. Yao WA(*), Wang ZH, Zuo C, Hu XF, Precise time-domain expanding boundary element method for solving phase change problems, Numerical Heat Transfer, Part B: Fundamentals, 2019, 76(4): 203-223.

41. Zhang P, Hu XF(*), Wang XY, Yao WA. An iteration scheme for phase field model for cohesive fracture and its implementation in Abaqus. Engineering Fracture Mechanics, 2018, 204: 268-287.

42. Yao WA, Li X, Hu XF. Viscoelastic crack analysis using symplectic analytical singular element combining with precise time-domain algorithm. International Journal of Fracture, 2018, 214: 29-48.

43. Xi X, Yang ST, Li CQ, Cai MF, Hu XF, Shipton ZK, Meso-scale mixed-mode fracture modelling of reinforced concrete structures subjected to non-uniform corrosion. Engineering Fracture Mechanics, 2018, 199: 114-130.

44. Hu XF*, Lu X, Tay TE. Modelling delamination migration using virtual embedded cohesive elements formed through floating nodes. Composite Structures, 2018, 204: 500-512.

45. Hu XF*, Haris A, Ridha M, Tan VBC, Tay TE. Progressive failure of bolted single-lap joints of woven fibre-reinforced composites. Composite Structures, 2018, 189: 443-454.

46. Hu XF*, Yao WA, Yang ST. A symplectic analytical singular element for steady-state thermal conduction with singularities in anisotropic material. ASME-Journal of Heat Transfer, 2018, 140: 091301.

47. Cai ZY, Hu XF, Yao WA*, Numerical study on bi-material interface crack using symplectic analytical singular element, Engineering Fracture Mechanics, 2018, 199: 308-326.

48. Yao WA*, Cai ZY, Hu XF. A new symplectic analytical singular element for crack problems under dynamic loading condition. Engineering Fracture Mechanics, 2018, 188: 431-447

49. Hu XF, Bui TQ*, Wang JN, Yao WA, Ton LHT, Singh IV.A new cohesive crack tip symplectic analytical singular element involving plastic zone length for fatigue crack growth prediction under variable amplitude cyclic loading. European Journal of Mechanics - A/Solids, 2017, 65: 79–90.

50. Hu XF, Gao HY, Yao WA*, Yang ST. Study on steady-state thermal conduction with singularities in multi-material composites. International Journal of Heat and Mass Transfer, 2017, 104: 861-870.

51. Hu XF, Shen QS, Wang JN, Yao WA*, Yang ST. A novel size independent symplectic analytical singular element for inclined crack terminating at bimaterial interface. Applied Mathematical Modelling, 2017, 50: 361-379.

52. 张鹏，胡小飞，姚伟岸*. 内聚力模型裂纹问题分析的解析奇异单元. 固体力学学报 , 2017, 38(2): 157-164.

53. Hu XF, Gao HY, Yao WA*, Yang ST. A symplectic analytical singular element for steady-state thermal conduction with singularities in composite structures. Numerical Heat Transfer, Part B: Fundamentals, 2016, 70: 406-419.

54. Hu XF*, Chen BY, Tirvaudey M, Tan VBC, Tay TE. Integrated XFEM-CE analysis of delamination migration in multi-directional composite laminates. Composites Part A: Applied Science and Manufacturing, 2016, 90: 161-173.

55. Yao WA*, Zhang P, Gao HY, Hu XF. An analytical singular element for the study of cohesive zone model based crack propagation. International Journal of Fracture, 2016, 197: 189-199.

56. Hu XF, Yao WA*, Wang JN. A size independent enriched finite element for the modeling of bimaterial interface cracks. Computers & Structures, 2016, 172: 1-10.

57. Gao HY*, Hu XF, Han F, Zhang J. Experimental study of kriging-based crack identification in plate structure. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2016, 231(17): 1989-1996.

58. 姚伟岸*, 李翔, 胡小飞, 张兆军. 含裂纹多材料反平面分析的解析奇异单元. 中国科学：技术科学, 2016: 1225-1231.

59. Wang YH*, Hu XF, Zhao Z, Yue QJ, Xu J. Failure mode of the ice sheet loading at the junction of the upward and downward breaking cones. Ocean Engineering, 2015, 96: 34-39.

60. Yao WA*, Zhang ZJ, Hu XF. Jordan form asymptotic solutions near the tip of a V-shaped notch in Reissner plate. International Journal of Solids and Structures, 2015, 75: 225-234.

61. Yao WA*, Zhang ZJ, Hu XF. A singular element for Reissner plate bending problem with V-Shaped notches. Theoretical and Applied Fracture Mechanics, 2014, 74: 143-156.

62. Li XJ*, Zhang CJ, Wang XH, Hu XF. Numerical study of underwater shock wave by a modified method of characteristics. Journal of Applied Physics, 2014, 115: 104905.

63. Hu XF, Yao WA*. Stress singularity analysis of multi-material wedges under antiplane deformation. Acta Mechanica Solida Sinica, 2013, 26: 151-160.

64. Hu XF, Yao WA*. A new enriched finite element for fatigue crack growth. International Journal of Fatigue, 2013, 48: 247-256.

65. Gao HY*, Guo XL, Hu XF. Crack identification based on Kriging surrogate model. Structural Engineering and Mechanics, 2012, 41: 25–41.

66. Yao WA*, Hu XF. A novel singular finite element on Mixed-mode Dugdale model based crack. ASME Journal of Engineering Materials and Technology, 2012, 134: 0210003.

67. Hu XF, Yao WA*, Fang ZX, Cai ZY. Vibration solutions of rectangular orthotropic plates by symplectic geometry method. The IES Journal Part A: Civil and Structural Engineering, 2012, 1: 1-11.

68. 姚伟岸*, 胡小飞. 关于“哈密顿体系在III型裂纹端部场求解中的应用”的讨论. 机械强度, 2012, 34(4): 631-632.

69. Hu XF, Yao WA*. A novel singular finite element on mixed-mode bimaterial interfacial cracks with arbitrary crack surface tractions. International Journal of Fracture, 2011, 172: 41–52.

70. Hu XF, Yao WA*, Fang ZX. Stress singularity analysis of anisotropic multi-material wedges under antiplane shear deformation using the symplectic approach. Theoretical and Applied Mechanics Letters, 2011, 1: 061003.

71. Yao WA*, Hu XF. A novel singular finite element of mixed-mode crack problems with arbitrary crack tractions. Mechanics Research Communications, 2011, 38: 170–175.

72. Yao WA*, Hu XF, Xiao F. Symplectic system based analytical solution for bending of rectangular orthotropic plates on Winkler elastic foundation. Acta Mechanica Sinica, 2011, 27: 929–937.

73. 姚伟岸*, 胡小飞. 双材料含桥联力Dugdale-Barenblatt模型的解析奇异单元. 固体火箭技术, 2011, 34: 635-638.

74. 姚伟岸*, 蔡智宇, 胡小飞. 矩形正交各向异性薄板弯曲受迫振动问题的分析解. 动力学与控制学报, 2011, 9(1): 12-17.