邱信明(QIU Xinming)   教授,博士生导师

 

    电话:+86 10 62772329

    传真:+86 10 62772329

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    办公地址:逸夫技术科学楼1309

    邮编:100084

 

研究方向

  • 航空航天相关结构力学性能分析
  • 计算动力学
  • 轻质材料的力学性能
  • 分形纳米结构

 

在研项目

  • 主持自然基金,《分级超级碳纳米管及分级轻质结构的性能研究》
  • 参与973项目,《多孔材料的跨尺度力学表征和多场服役行为的孔结构特征》
  • 参与973项目,《复杂装备研发数字化工具中的计算力学和多场耦合若干前沿问题》
  • 主持北理工实验室开放基金,《超轻多孔金属在强动载荷下的响应分析》
  • 主持航天三院横向项目,高空舱及壳体组件设计方案的力学验证
  • 主持哈飞横向项目,直升机抗坠毁仿真研究

 

已完成项目:

  • 主持自然科学基金项目, Kagome轻质结构的力学性能研究
  • 参与973项目,《超轻多孔结构创新构型的多功能化基础研究》
  • 参与自然基金重点项目,《物理波在超轻多孔材料和结构中的传播和吸收》
  • 主持总装备部某横向项目
  • 主持航空材料研究所横向项目,《碳纤维增强复合材料层压板冲击损伤模拟研究》
  • 主持航天三院某研究所横向项目,《某方舱结构分析及结构优化》
  •  

教学情况

  •  《理论力学》课程,本科生,2005-今
  •  《冲击动力学》课程,研究生,2011-今

 

个人简历

  • 1992-2002年,清华大学工程力学系,97、02年获学士和博士学位。
  • 2002-2004年,英国剑桥大学工程系细观力学中心,博士后。
  • 2004年9月至今,清华大学航天航空学院
  • 2008.2-08.9,香港科技大学机械工程系交流合作

至2011年3月,已发表学术论文50篇,其中SCI收录34篇,在SCI网络版中被引用415次。工作期间曾主持国家自然科学基金项目2项,作为骨干参与973重点项目2项,参与XXXX预研基金1项,作为成员参与国家自然科学基金项目2项,入选2007年清华大学骨干人才计划,获得2009年度清华大学学术新人奖,2010年度清华大学青年教师教学优秀奖。目前研究方向侧重于轻质结构的力学性能研究,结构的动态响应,非线性断裂力学的理论分析和数值模拟仿真。

 

近期代表性论著

  1. Qiu X, Zhang J, Yu TX, (2009). Collapse of periodic planar lattices under uniaxial compression, part I: quasi-static strength predicted by limit analysis. Int. J. Impct. Engng., 36, 1223–1230
  2. Qiu X, Zhang J, Yu TX, (2009). Collapse of periodic planar lattices under uniaxial compression, part II: dynamic crushing based on finite element simulation. Int. J. Impct. Engng., 36, 1231-1241
  3. Qiu X, He L, Qian Y, Zhang X. (2009) The plastic zone of semi-infinite crack in planar Kagome and triangular lattices. Acta Mechanica Solida Sinca, 22(3)
  4. Li Y, Qiu X, Yin YJ, Yang F and Fan QS. (2009) The specific heat of carbon nanotube networks and their potential applications, J. Phys. D: Appl. Phys., 42, 155405(6pp)
  5. Li Y, Qiu X, Yang F, Yin YJ, Fan QS. (2009)  Stretching-dominated deformation mechanism in a super square carbon nanotube network. Carbon, 47(3): 812-819.
  6. Ma S, Zhang X, Qiu X. (2009) Comparison study of MPM and SPH in modeling hypervelocity impact problems. Int. J. Impct. Engng., 36(2): 272-282.
  7. 钱岳强,邱信明,张雄. (2008)Kagome平面格栅结构裂纹尖端场的塑性区,力学学报40(6),826-833
  8. Yang F, Qiu X, Li Y, Yin Y, Fan Q. (2008) Specific heat of super carbon nanotube and its chirality independence. Physics Letters A. 372: 6960–6964.
  9. Li Y, Qiu X, Yang F, Yin Y and Fan Q. (2008) Chirality independence in critical buckling forces of super carbon nanotubes. Solid State Communications. 148, 63-68.
  10. Li Y, Qiu X, Yang F, Wang X-S, Yin Y-J, Fan Q-S. (2008) A comprehensive study on the mechanical properties of super carbon nanotubes. J.Phys D: App. Phys., 41, 155423(6pp)
  11. Li Y, Qiu X, Yang F, Wang X and Yin Y. (2008) The effective modulus of super carbon nanotubes predicted by molecular structure mechanics. Nanotechnology, 19, 225701 (7pp).
  12. Li Y, Qiu X, Yang F, Wang X and Yin Y. (2008) Ultra-high Sensitivity of Super Carbon nanotube based Mass and Strain Sensors. Nanotechnology, 19,165502 (6pp).
  13. Zhang, YH; Qiu, X; Fang, DN. (2008) Mechanical properties of 2-D lattice materials. Advances in Fracture and Materials Behavior, 33-37, 585-590.
  14. Zhang Y, Xue Z, Qiu X, Fang D. (2008) Plastic yield and collapse mechanism of planar lattice structures. Journal of Mechanics of Materials and Structures, 3(7), 1257-1277.
  15. Zhang Y, Gu Y, Qiu X, Guo H, Zhao H, Fang D. (2008) Vibration and buckling of lattice sandwich structures. Inernational Journal of Nonlinear Sciences and Numerical Simulation, 9(1), 41-46.
  16. Zhang Y, Qiu X and Fang D. (2008) Mechanical Properties of two Novel Planar Lattice Structures. International Journal of Solids and Structures, 45(13), 3751-3768.
  17. Yin Y, Zhang T, Yang F, Qiu X. (2008) Geometric conditions for fractal super carbon nanotubes with strict self-similarities. Chaos, Solitons and Fractals. 37(5), 1257-1266.
  18. Wang M, Qiu X, Zhang X and Yin Y. (2007) Equivalent Parameters Study of Super Carbon Nanotubes’ Mechanical Properties. Nanotechnology, 18, 295708 (6pp).
  19. Fleck N A and Qiu X. (2007) The Damage Tolerance of Elastic–brittle, Two-dimensional Isotropic Lattices. J. Mech. Phys. Solids55(3), 562-588.
  20. Wang M, Qiu X and Zhang X (2007). Mechanical Properties of Super Honeycomb Structures Based on Carbon Nanotubes. Nanotechnology. 18, 75711 (6pp).
  21. Guo H, Qiu X and Fang D. (2006) Optimal Design of Two Lattice Materials and Their Effective Properties. Int. J. Nonlinear Sciences and Numerical Simulation, 7(4), 93-398.
  22. 马上,张雄,邱信明. (2006) 超高速碰撞问题的三维物质点法. 爆炸与冲击,26(3):273-278.
  23. Qiu X, Deshpande V S and Fleck N A. (2005) Impulsive Loading of Clamped Monolithic and Sandwich Beam over a Central Patch. J. Mech. Phys. Solids, 53, 1015-1046.
  24. Qiu X, Deshpande V S and Fleck N A. (2004) Dynamic Response of a Clamped Circular Sandwich Plate Subject to Shock Loading. ASME J.Appl. Mech., 71(5), 637-645.
  25. Wei Y, Qiu X and Hwang K C. (2004) Stead-State Crack Growth and Fracture Work Based on the Theory of Mechanism-Based Strain Gradient Plasticity. Eng. Fract. Mech., 71(1), -125.
  26. Qiu X and Deshpande V S and Fleck N A. (2003) Finite Element Analysis of the Dynamic Response of Clamped Sandwich Beams. Eur. J. Mech.-A/Solids, 22, 801-814.
  27. Liu B, Qiu X, Huang Y, Hwang K C, Li M and Liu C. (2003) The Size Effect on Void Growth in Ductile Materials. J. Mech. Phys. Solids, 51(7), 1171-1187.
  28. Hwang K C, Liu B, Qiu X. (2003) The Void effect in Metallic Materials, Key Eng. Mat., 243-244, 405-410.
  29. Qiu X, Huang Y, Wei Y G, Gao H and Hwang K C. (2003) The Flow Theory of Mechanism-Based Strain Gradient Plasticity. Mechanics of Material, 35, 245-258.
  30. Qiu X, Huang Y, Nix W D Hwang K C and Gao H. (2001) Effect of Intrinsic Lattice Resistance in Strain Gradient Plasticity. Acta Mater. 49, 3949~3958.
  31. Qiu X, Guo T and Hwang K C. (2000) FEM Solutions for Plane Stress Mode-I and Mode-II Cracks in Strain Gradient Plasticity. Sci. China (Series A), 43(9), 969~979

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