薛璞


的个人主页 http://jszy.nwpu.edu.cn/xuepu

基本信息 The basic information

薛璞

航空学院

博士研究生毕业

工学博士

教授

力学

p.xue@nwpu.edu.cn

029-88491208

工作经历 Work Experience

1978-1981,西工大力学专业学士学位

1982-1985,西工大力学专业硕士学位

1997-2000   香港科技大学机械工程专业博士学位

2000-2003,美国西北大学机械工程专业博士后

2003-2006,香港 理工大学 纳米中心 研究员

西工大力学学院讲师(1987)、副教授(1991)、航空学院教授(2006-至今 

教育教学 Education And Teaching

1、结构强度基础,本科生课程, 56学时

2、先进材料结构分析理论,硕士研究生课程, 40学时

3、冲击动力学,博士研究生课程, 40学时 

招生信息 Admission Information

研究方向

1、飞机结构的耐撞性设计、抗鸟撞设计

2、复合材料结构设计与损伤分析

3, 多胞材料与结构的能量吸收性能

4. 智能纺织复合材料 

荣誉获奖 Awards Information

振动理论及应用”获国防科工委“国防科技工业图书奖”2005.12 

中航工业集团科学技术二等奖,2014.12 

科学研究 Scientific Research

近几年,主持国家自然科学基金项,航空基金项,主持和参加国防基础预研,工程应用项目和其它大型项目多项。例如,

  • 飞机结构的耐撞性设计研究;
  • C919飞机及内部设施适坠性适航要求及验证技术研究;
  • 飞行器动强度分析、设计与控制技术研究;
  • 飞机结构的抗鸟撞设计与分析;
  • 编织复合材料结构抗冲击性能分析与损伤预报;
  • 民机机身结构和内部设施适坠性分析、设计与验证;
  • 柔性导电织物的大应变传感特性及其机理研究;
  • 泡沫材料缓冲吸能特性及优化设计研究;
  • 泡沫材料动态吸能研究;
  • 复合材料连接接头的剪切和疲劳性能研究;
  • 飞机典型金属结构振动疲劳研究;等等。 

近年来的代表作

代表作

书及章节

1. 余同希,薛璞, 工程塑性力学, 高教出版社, 2010.2

2.. P. XueX.M. Tao, M Y Leung, H Zhang, Electro-mechanical properties of conductive fibers, yarns and fabrics, Chapter 5 in the book Wearable Electronics and Photonics edited by Xiao-ming Tao, Woodhead Publishing Co. UK, 2005.

3. P. Xue, X.M. Tao and T.X. Yu, Cellular Textile Composite: Configuration and Energy absorption Mechanisms. Chapter 3  in Engineering Plasticity and Impact Dynamics, ed. L.C. Zhang, World Scientific, 2001.

4.方同,薛璞. 振动理论及应用,西北工业大学出版社.

文章

1. H.S.U. BUTT, P. XUE,Jiang, T.Z;Wang, B., Parametric Identification for Material of Viscoelastic SHPB from Wave Propagation Data Incorporating Geometrical Effects, International Journal of Mechanical Sciences, September 30 (91), 46 – 54, 2015

2. T.Z. Jiang, P. Xue,, H.S.U. Butt, Pulse shaper design for dynamic testing of viscoelastic materials using polymeric SHPB, International Journal of Impact Engineering,79,45-52,2015

3. GC Li , P. XUE et al, Shear behavior and failure analysis of a composite T-joint with a cutout, Journal of Composite Materials, 49(19) 2015,2307-2315, 2014

4. Hafiz Sana Ullah BUTT, Pu XUE, Bing HOU,Evaluation of phenomenological of Model Parameters using Density Dependent Laws for Prediction of Mechanical Response of Cellular Materials,Bulletin of the Polish Academy of Sciences Technical Sciences,63(1) 2015 

5. L. Li, P. Xue, Y. Chen, H.S.U.Butt,Insight into cell size effects on quasi-static and dynamic compressive properties of 3D foams,Materials Science and Engineering A, 636,2015, 60-69

6. Butt, Hafiz Sana Ullah;Xue, Pu, Determination of the Wave Propagation Coefficient of Viscoelastic SHPB: Significance for Characterization of Cellular Materials, International Journal of Impact Engineering, v 74, p 83-91, 2014

7. Naveed Iqbal, P. Xue, B. Wang, Y.L. Li,On the High Strain Rate Behavior of 63-37 Sn-Pb Eutectic Solders with Temperature Effects,International Journal of Impact Engineering, v 74, p 126-131, 2014

8. P. Xue, M. L. Ding and T. X. Yu,  Deformation Mechanism of a Typical Fuselage Section under a Vertical Crash, Latin American Journal of Solid and Structure, V11(9),P1615-1627, 2014

9. J.P. Wang, P. Xue, XM Tao, Strain Sensing Behavior and Its Mechanism of Electrically Conductive PPy-Coated Fabric, High Performance Polymers, 26(3)pp364-370, 2014

10. P. Xue,  J.P. Wang, XM Tao,Flexible Textile Strain Sensors from PPy-coated XLATM Elastic Fibers, High Performance Polymers, 26(3)pp364-370, 2014

11. 赵士洋,薛璞,An Effective Numerical Approach with Complete Damage Transfer Under a Multi-step Loading,APPLIED MATHEMATICS AND MECHANICS-ENGLISH EDITION, p309-402, Vol 35, No. 3 ,2014

12 赵士洋,薛璞,损伤变量对复合材料损伤演化过程的影响分析, 西北工业大学学报 32(4),542-545,2014

13. Wei GUO, Pu XUEJun YANG ,Nonlinear Progressive Damage Model for Composite Laminates Used for Low Velocity Impact,Applied Mathematics and Mechanics V34 No.9, p1145-1154, 2013

14. Naveed Iqba , Xue P. Liao H.J, Wang B. Li Y.L., Experimental Study on Strain Rate Sensitivity of Ductile Porous Irons,Journal of Impact Engineering,48,82-86, 2012

15. Wang J.P. ; Xue P.; Tao X.M.,Strain sensing behavior of electrically conductive fibers under large deformation,Materials Science and Engineering A, v 528, n 6, p 2863-2869,  2011

16.  P. Xue, N. Zhao, J Liu, YL Li, An Approach to Assess Bird-strike Resistance for a Wing Slat Structure,Journal of Aircraft 48(3), 1095-1098

17. P. Xue, C.F. Qiao,T.X. Yu , Crashworthiness Study of a Keel Beam Structure, International Journal of Mechanical Science, 52,2010,  672-679.

18. Naveed Iqba , Xue P. Liao H.J, Wang B. Li Y.L., Material characterization of Porous Bronze, Materials Science and Engineering A, v 528, n 13-14, p 4408-4412, 2011

19 薛璞 ,王俊璞,X.M. Tao, 三种不同导电纤维的大应变传感特性的比较研究, 功能材料, v 42, n 3, p 557-559, 2011

20. 赵楠,薛璞,李玉龙, 鸟体撞击蜂窝夹层板的动力响应分析研究, 兵工学报, 2010, 31,, p 184-189

21 P. Xue, Keun Hoo PARK, X.M. Tao, W. Chen and X.Y. Chen, Electrically Conductive yarns Based on PVA/carbon Nanotubes, Composite Structure, 78, 2, 2007,  271-277.

22. P. Xue, X.M. Tao , H.Y. Tsang, In-situ SEM Studies on Strain Sensing Mechanisms in PPy-coated Electrically Conducting Fabrics, Applied Surface Science, 2006 . 253. 7,30 2007, 3387-3392.

23. P. Xue and X.M. Tao, Morphological and Electromechanical Studies of Fibers Coated with Electrically Conductive Polymer, Journal of Applied Polymer Science, 98(4), 1844–1854, 2005.

24 P. Xue, Keun Hoo PARK, X.M. Tao, W. Chen and X.Y. Chen, Electrically Conductive yarns Based on PVA/carbon Nanotubes, Composite Structure, 78, 2, 2007,  271-277.

25. P. Xue, J. Cao and J. Chen, Integrated Micro/Macro Mechanical Model of Woven Fabric Composites under Large Deformation, Composite Structure, 70(1), 69-80, 2005.

26. P. Xue, X.M. Tao, T.X. Yu, Keith W.Y. Kwok and M.Y. Leung, Electromechanical Behaviour of Fibres Coated with Electrically Conductive Polymer, Textile Research Journal, 74(10), 929-936, 2004.

27. P. Xue, X.Q. Peng and J. Cao, A non-orthogonal constitutive model and its numerical implementation procedure for characterizing woven composites, Composites Part A – Applied Science and Manufacturing, 34(2): 183 – 193, 2003.

28 S.W. Lam, P. Xue, X.M. Tao and T.X. Yu, Multi-scale study of tensile properties and large deformation mechanisms of polyethylene terephthalate fibre/polypropylene matrix knitted composites, Composite Science and Technology, 63:1337-1348, 2003.

29. Jian Cao, Pu Xue, XQ Peng and Neil Krishnan, An approach in modeling the temperature effect in thermo-stamping of Woven Composites, Composite Structure, 61(4):413-420, 2003.

30. P. Xue, T.X. Yu and X.M. Tao, Tensile properties and meso-scale mechanism of weft-knitted textile composites for energy absorption, Composites Part A – Applied Science and Manufacturing, 33: 113-123, 2002.

31. P. Xue, T.X. Yu and X.M. Tao, Flat-topped conical shell under axial compression, International Journal of Mechanical Science, 43(9): 2125-2145, 2001.

32. P. Xue, T.X. Yu and Edmund Chu, An energy approach for predicting springback of metal sheets after double- curvature forming, Part I: axisymmetric stamping, International Journal of Mechanical Science, 43(8): 1893-1914, 2001.

32. P. Xue, T.X Yu and Edmund Chu, An energy approach for predicting springback of metal sheets after double- curvature forming, Part II: Unequal double curvature forming, International Journal of Mechanical Science, 43(8): 1915-1924, 2001.

33T.X. Yu, X.M. Tao and P. Xue, Energy-absorbing capacity of grid-domed textile composites, Composite Science and Technology, 60(5): 785-800, 2000.

34 P. Xue, X.M. Tao and T.X. Yu, Research progress in the energy-absorbing capacity of textile composites, Advances in Mechanics, 30(2): 227-238, 2000.

35. P. Xue, T.X. Yu and X.M. Tao, Effect of cell geometry on the energy-absorbing capacity of grid-domed textile composites, Composites Part A – Applied Science and Manufacturing, 31:861-868, 2000.

36. J.S. Wu, P. Xue and W-Y Mai, Effect of blending sequence on the morphology and impact toughness of poly (ethylene terephthalate)/polycarbonate blends, Polymer Engineering and Science, 40(3): 786-797, 2000.