1996年 清华大学力学系工程力学专业学士

1996年 清华大学精仪系机械工程专业学士（第二学位）

2001年 清华大学力学系固体力学专业博士

2001－2004年 美国伊利诺伊大学香槟分校（UIUC）机械系博士后

2004－2005年 德国马普协会金属所洪堡研究员

2005－2009年 清华大学力学系固体研究所副研究员

2009- 清华大学力学系教授

国际期刊Elsevier出版社《Forces in Mechanics》主编，《力学学报》副主编。

多尺度多物理场计算方法，

断裂力学

复合材料力学

微/纳米材料、仿生材料和智能材料力学行为的理论与计算

在研项目

面向超大规模有限元的线性方程组多级平衡并行算法研究

先进材料的多尺度多场力学

弹塑性断裂力学

已完成项目

碳纳米管系统在力热电场下的行为及性能研究（自然科学基金面上项目）

超高温非烧蚀型材料强韧化的微结构设计（自然科学基金面上项目）

天然生物材料的多尺度力学与仿生研究（自然科学基金重点项目，参与）

关于多种物理作用下的碳纳米管及其复合材料的多尺度计算研究（自然科学基金部主任项目）

2026年合著的《复合材料力学（第2版）》入选“十四五”普通高等教育本科国家级规划教材

2021年获中国力学学会自然科学一等奖，复合材料多层级变形及破坏行为关联性理论

2014年获国家杰出青年科学基金

2011年中国力学学会青年科技奖

2010年国家自然科学二等奖，电磁固体的变形与断裂

2008年入选教育部新世纪优秀人才支持计划

2004－2005年德国洪堡基金会研究奖学金

在J. Mech. Phys. Solids、Nature Communications、Physical Review Letters等国内外学术期刊发表论文150多篇

代表性论文

1. Yang P, Lei P, Liu B*, Gao H, (2025), Construction of Isotropic Compressible Hyperelastic Constitutive Models Based Solely on Uniaxial Tests. Journal of the Mechanics and Physics of Solids, 200: 106150.

2. Meng Z, Lei P, Hou B, Liu B*, Wang Y, (2025), Dual-bond fracture metamaterials with full-field extrinsic toughening. Nature Communications, 16: 6891.

3. Feng H, Zhang H, Li Z, Zhou J, Lei P, Liu B*, (2025), A Biomimetic Moving-Mesh Topology Optimization Method. International Journal for Numerical Methods in Engineering, 126: e70145.

4. Feng HW, Lei PD, Zhang Hk, Liu B*, (2024), Least failure energy density: A comprehensive strength index to evaluate and optimize heterogeneous periodic structures. Journal of the Mechanics and Physics of Solids, 193: 105892.

5. Xu H, Liu B*, (2023), Hierarchical subspace evolution method for super large parallel computing: A linear solver and an eigensolver as examples. International Journal for Numerical Methods in Engineering, 124 (1): 5-39.

6. Xu W, Ren Y, Si Xiao S, Liu B*, (2023), A finite crack growth energy release rate for elastic-plastic fracture. Journal of the Mechanics and Physics of Solids, 181: 105447.

7. Nan ZH, Fang YP, Yang PF, Meng S, Zhou JJ, Liu B*, (2023), Strong-anisotropy-induced instability and discussion on kink band under complex loads. Extreme Mechanics Letters, 62: 102043

8. Yang PF, Fang YP, Yuan YN, Meng S, Nan ZH, Xu H, Imtiaz H, Liu B*, Gao HJ, (2021), A perturbation force based approach to creasing instability in soft materials under general loading conditions. Journal of the Mechanics and Physics of Solids, 151: 104401.

9. Chen Y, Ma Y, Yin Q, Pan F, Cui C, Zhang Z, Liu B*, (2021), Advances in mechanics of hierarchical composite materials. Composites Science and Technology, 214: 108970.

10. Jia YJ, Wang HL, Liu B*, Huang Y, Gao H, (2020), Intrinsic-to-extrinsic transition in fracture toughness through structural design: A lesson from nature. Extreme Mechanics Letters, 37: 100685.

11. Fang YP, Wang YQ, Imtiaz H, Liu B*, Gao HJ, (2019), Energy-ratio-based measure of elastic anisotropy. Physical Review Letters, 122(4): 045502.

12. Xiao S, Wang HL, Liu B*, Hwang KC, (2017), The surface-forming energy release rate versus the local energy release rate. Engineering Fracture Mechanics, 175: 86-100.

13. Zhao JM, Wang HL, Liu B*, (2017) Two objective and independent fracture parameters for interface cracks. Journal of Applied Mechanics-Transactions of the ASME, 84(4), 041006.

14. Zhao JM, Song XX, Liu B*, (2016), Standardized compliance matrices for general anisotropic materials and a simple measure of anisotropy degree based on shear-extension coupling coefficient. International Journal of Applied Mechanics, 8(6): 1650076.

15. Xiao S, Wang HL, Liu B*, Hwang KC, (2015), The surface-forming energy release rate based fracture criterion for elastic–plastic crack propagation. Journal of the Mechanics and Physics of Solids, 84:336-357.

16. Tong Q, Wang HL, Xu R, Liu B*, Fang DN, (2014), Adaptive periodical representative volume element for simulating periodical postbuckling behavior. International Journal for Numerical Methods in Engineering, 98(6): 445–468.

17. Xu R, Liu B*, Dong Y, (2013), Scalable hierarchical parallel algorithm for the solution of super large-scale sparse linear equations. Journal of Applied Mechanics-Transactions of the ASME, 80: 020901.

18. Jia YJ, Zhu WP, Li T, Liu B*, (2012), Study on the mechanisms of mode I supersonic crack propagation, Journal of the Mechanics and Physics of Solids, 60(8): 1447-1461.

19. Chen YL, Liu B*, He XQ, Huang Y, Hwang KC, (2010), Failure analysis and the optimal toughness design of carbon nanotube-reinforced composites. Composites Science and Technology, 70(9): 1360-1367.

20. Zhang ZQ, Liu B*, Huang, Y, Hwang KC, Gao H, (2010), Mechanical properties of unidirectional nanocomposites with non-uniformly or randomly staggered platelet distribution. Journal of the Mechanics and Physics of Solids, 58: 1646–1660.

21. Liu B*, Feng X, Zhang SM, (2009), The effective Young's modulus of composites beyond the Voigt estimation due to the Poisson effect. Composites Science and Technology 69(13): 2198-2204.

22. Liu B*, Qiu XM, (2009), How to compute the atomic stress objectively? Journal of Computational and Theoretical Nanoscience 6(5): 1081-1089.

23. Liu B, Huang Y, Jiang H, Qu S, Hwang KC, (2004), The atomic-scale finite element method. Computer Methods in Applied Mechanics and Engineering 193 (17-20): 1849-1864.

24. Liu B, Jiang H, Johnson HT, and Huang Y (2004), The influence of mechanical deformation on the electrical properties of single wall-carbon nanotubes. Journal of the Mechanics and Physics of Solids, v52(1), pp 1-26

25. Fang DN, Liu B, Sun CT, (2004), Fatigue crack growth in ferroelectric ceramics driven by alternating electric fields. Journal of the American Ceramic Society 87 (5): 840-846.