English 
姜云鹏

副教授 博士生导师

招生学科专业:
力学 -- 【招收硕士研究生】 -- 航空学院
航空宇航科学与技术 -- 【招收硕士研究生】 -- 航空学院
机械 -- 【招收硕士研究生】 -- 航空学院

性别:男

毕业院校:西北工业大学

学历:西北工业大学

学位:工学博士学位

所在单位:航空学院

办公地点:明故宫校区A18-1012

联系方式:ypjiang@nuaa.edu.cn TEL: 15365114686

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个人简介:

姜云鹏,院特聘研究员

主要从事先进复合材料力学、柔性功能材料的制备和功能器件设计和安全评估。迄今发表学术论文90篇,其中SCI:43篇次,EI:59篇,被引用>700次。现为“复合材料学报”,Compos Sci Technol, Int J Mech Sci, Eng Fract Mech, Compos Struct, Compos Part B, Comput Mater Sci, Mater Sci Eng A, J Compos Mater, Adv Eng Mater, Mater & Design, Int J Damag Mech, Mater Lett, Fiber & Polymer等20种国内外知名期刊审稿人,担任江西/河北省科技厅评审专家,教育部研究生教育发展中心和国家自然科学基金委评审专家等。

人才工程:

12007年:日本学术振兴会JSPS特别研究员

22012年:教育部“新世纪优秀人才”支持计划

32018年:江苏省“六大人才高峰”高层次人才计划

研究体系




科研项目:

(1)  国家自然科学基金(面上项目):12072149,非晶合金基复合材料在复杂应力状态下的强韧化机理研究,62万元,主持,在研

(2)  中央高校业务费:NS2022012,镓基液态金属柔性复合材料的设计、制备与力-电行为研究,10万元,主持,在研

(3)  江苏“六大人才高峰”高层次人才项目:XCL-031,非晶合金基复合材料的多尺度本构模型与试验研究,4万元,主持,在研

(4)  江苏自然科学基金(面上项目):2018021768,非晶合金基复合材料的微结构效应及强韧化机理研究,10万元,主持,结题

(5)  中央高校业务费:NS2018009,非晶合金基复合材料的微结构效应及强韧化机理研究,10万元,主持,结题

(6)  中央高校业务费:1001-YAH16056,非晶合金基复合材料的颗粒增韧机理研究,8万元,主持,结题

(7)  国家自然科学基金:2012506111,热-力耦合作用下碳纤维增强热塑性复合材料的大变形宏/细观力学研究,26万元,主持,结题

(8)  江苏自然科学基金(青年项目):2012503811,碳纤维增强热塑性复合材料的热-力耦合大变形力学研究,20万元,主持,结题

(9)  教育部基金:2013566012,新世纪优秀人才计划基金,50万元,主持,结题

(10)高层次人才引进基金:2011B07914,颗粒增强热塑性聚合物基复合材料的非线性大变形力学行为,30万元,主持,结题

(11)国家自然科学基金:11202067,囊泡电穿孔和电融和的计算机模拟研究,26万元,参与,结题

(12)国家自然科学基金:50805079,薄膜压痕的三维效应研究,25万元,参与,结题

(13)“项目式课程”建设,材料力学,2021.9-2023.8,5.0万元

 



 

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TEL15365114686

E-mail: ypjiang@nuaa.edu.cn



 


学术论文:

2022年(2篇)

1.   Z. Gong, Z. Zhou, Z. Wang, Q.H. Lv, J.F. Xu and Y.P. Jiang (2022). Coordinated formation guidance law for fixed-wing UAVs based on missile parallel approach method. Aerospace 9: 272-291. (SCI/EI, IF: 1.652)

2.   Jiang Y.P. (2022): Using nano-powders to improve the interfacial bonding strength of carbon fiber/epoxy composites. Fibers and Polymers doi.org/10.1007/s12221-022-4651-9 (SCI/EI, IF: 2.153)

2021年(2篇)

3.   Jiang Y.P., Wu J. and Zhu Y. (2021): A mesoscopic model for particle filled composites with network microstructures. Mechanics of Composite Materials 3(57): 415-424. (SCI/EI, IF: 1.333)

4.   Jiang Y.P. and Wu J. (2021): Enhancement of interface strength of carbon fiber/epoxy resin composites filled with low dimensional materials. Composite Interfaces 28(3): 273-286. (SCI/EI, IF: 2.952,)

2019年(1篇)

5.   Jiang Y.P., Wu J. (2019): A micromechanics model for particle filled composites with network microstructure. JSMAMS-2019, Nov. 2019 (in Japan)

2018年(6篇)

6.   Jiang Y.P. (2018): Micromechanical model of bulk metallic glass matrix composites with transformation induced plasticity. Journal of Non-Crystalline Solids 484: 118-123. (SCI/EI, IF: 3.531)

7.   Jiang Y.P. (2018): Mesoscopic constitutive model for predicting failure of bulk metallic glass composites based on the free-volume model. Materials 11: 327-337. (SCI/EI, IF: 3.623)

8.   Jiang Y.P., Qiu K., Sun L.G. and Wu Q.Q. (2018): Modeling of bulk metallic glass matrix composites under compression: Microstructure effect on shear band evolution. Metallurgical and Materials Transactions A 49A: 417-424. (SCI/EI, IF: 2.556)

9.   Jiang Y.P. (2018): An analytical method for studying the tensile stress-strain relations of bulk metallic glass composites. Advanced Composite Letters 27(6), 266-270. (SCI/EI, IF: 0.852)

10. 吴青青,姜云鹏,孙龙港,邱昆,史学萍(2018):梯度微结构对金属玻璃拉伸增韧的影响,复合材料学报,351227-1235.EI

11. 邱昆,姜云鹏,史雪萍,吴青青,孙龙港(2018):新型颗粒增强金属玻璃复合材料的拉伸增韧机制,复合材料学报35: 124-131. (EI)

2017年(8篇)

12. 孙龙港,姜云鹏,吴青青,邱昆,史雪萍(2017):金属玻璃复合材料压缩增韧的微结构机理,能源与环保,39158-165.

13. Jiang Y.P. (2017): Micromechanics constitutive model for predicting the stress–strain relations of particle toughened bulk metallic glass matrix composites. Intermetallics 90: 147-151. (SCI/EI, IF: 3.758)

14. Jiang Y.P., Sun L.G. and Wu Q.Q. (2017): Macroscopic tensile plasticity of metallic glass matrix composites through gradient microstructures. Journal of Non-Crystalline Solids 475: 96-100 (SCI/EI, IF: 3.531)

15. 史雪萍,姜云鹏,邱昆,孙龙港,吴青青(2017):橡胶基复合材料的微结构效应研究,能源与环保39: 71-75.

16. Jiang Y.P., Sun L.G., Wu Q.Q. and Qiu K. (2017): Enhanced tensile ductility of metallic glass matrix composites with novel microstructure. Journal of Non-Crystalline Solids 459: 26-31. (SCI/EI, IF: 3.531)

17. 邱昆,姜云鹏,史雪萍,孙龙港,吴青青 (2017): 金属玻璃基复合材料的微结构效应,复合材料学报 34(6): 8-16.(EI)

18. 吴青青,孙龙港, 邱昆,史雪萍,姜云鹏 (2017): 带缺口的大块金属玻璃在疲劳荷载下的破坏机理,中国力学大会,北京。

19. Jiang Y.P., Qiu K. (2017): Microstructure designing of tensile toughening mechanism of metallic glass matrix composites. ICCM-21, Aug. 2017 (in China) (EI)

2016年(6篇)

20. Jiang Y.P. (2016): An analytical model for particulate reinforced composites (PRCs) taking account of particle debonding and matrix cracking. Materials Research Express 3(10): 106501. (SCI/EI, IF: 1.620)

21. Jiang Y.P. (2016): FEM modeling of cyclic deformation in bulk metallic glasses (BMGs). Metals, 6(9), 217. (SCI/EI, IF: 2.351)

22. Jiang Y.P. (2016): Effect of testing conditions on the compressive plasticity of bulk metallic glasses (BMGs). Journal of Materials Research, 31(17), 2686-2694. (SCI/EI, IF: 3.089)

23. Jiang Y.P. (2016): Numerical study of the effect of sample aspect ratio on the ductility of bulk metallic glasses (BMGs) under compression. Metallurgical and Materials Transactions A, 47, 2481-2486. (SCI/EI, IF: 2.556)

24. Jiang Y.P. (2016): Numerical study of the notch effect on the ductility of bulk metallic glasses (BMGs) based on the free-volume theory. Journal of Materials Research, 31(6), 765-774. (SCI/EI, IF: 3.089)

25. Jiang Y.P., Tohgo K., Shimamura Y. (2016): A Micromechanics-based Incremental Damage theory of Bulk Metallic Glass (BMG) Composites. International Journal of Damage Mechanics, 25, 358-376. (SCI/EI, IF: 5.029)

2015年(5篇)

26. Jiang Y.P. (2015): On the compression mechanism of the composite lattice structures. Advanced Composites Letters 24, 107-112. (SCI/EI, IF: 0.852)

27. Jiang Y.P., Shi X.P., Qiu K. (2015): Micromechanical modeling the plastic deformation of particle reinforced bulk metallic glass composites. Metallurgical and Materials Transactions A 46A, 3705-3712. (SCI/EI, IF: 2.556)

28. Jiang Y.P., Shi X.P., Qiu K. (2015): Numerical Study of Shear Banding Evolution in Bulk Metallic Glass Composites. Materials & Design. 77, 32-40. (SCI/EI, IF: 7.991)

29. Jiang Y.P. Shi X.P., Qiu K. (2015): A micromechanics-based incremental damage model for carbon black filled rubbers. Composites Part B: Engineering. 75, 11-16. (SCI/EI, IF: 9.078)

30. Jiang Y.P., Qiu K. (2015): Computational micromechanics analysis of toughening mechanisms of particle-reinforced bulk metallic glass composites. Materials & Design 65, 410-416. (SCI/EI, IF: 7.991)

2014年(1篇)

31. Jiang Y.P., Qiu K. (2014): A Micromechanics-based Incremental Damage Model for Carbon Black Filled Rubbers. ICNAAM 2014, Sep. 2014 (in Greece) (SCI/EI)

2013年(5篇)

32. Jiang Y.P., Fan H.L. (2013): A micromechanics model for predicting the stress–strain relations of filled elastomers. Computational Materials Science, 67, 104-108. (SCI/EI, IF: 3.300)

33. Yang H., Jiang Y.P., Chen P.H., Fan H.L. (2013): Micromechanics models of particulate filled elastomer at finite strain deformation. Composites Part B: Engineering, 45, 881-887. (SCI/EI, IF: 9.078)

34. Jiang Y.P., Tohgo K. (2013): A constitutive model of finite strain deformation of filled elastomers. JSMAMS, Nov. 2013 (in China)

35. 姜云鹏 (2013): 颗粒增强高弹体的均匀化理论研究; 重庆大学2013年复合材料力学研讨会摘要集, May 2013 (in China)

36. Jiang Y.P. (2013): Micromecanics study of carbon black filled rubbers. ICF13, Aug. 2013 (in China)

2012年(3篇)

37. Jiang Y.P., Yang H., Chen P.H. (2012): Analytical study of morphologies for ultra high elastic stiffness of composites with aligned cylindrical fibers. Composite Structures, 94, 2390-2396. (SCI/EI, IF: 5.407)

38. Jiang Y.P., Tohgo K., Shimamura Y. (2012): Ultrasonic dispersion of SiO2 particles in glassy epoxy resin. Journal of Composite Materials, 46(10), 43-52. (SCI/EI, IF: 2.591)

39. Yang H., Chen P.H., Jiang Y.P. (2012): 规则性分布长纤维增强复合材料的等效弹性研究. 机械强度 34, 56-62.

2011年(3篇)

40. Jiang Y.P., Tohgo K. (2011): An incremental damage theory for micropolar composites taking account of progressive debonding and particle size effect. Computational Material Science, 50, 3358-3364. (SCI/EI, IF: 3.300)

41. Yang H., Chen P.H., Jiang Y.P., Tohgo K. (2011): Incremental damage theory of particulate-reinforced composites with a ductile interphase. Composite Structures, 93, 2655-2662. (SCI/EI, IF: 5.407)

42. Jiang Y.P., Tohgo K. (2011): Incremental damage theory of particulate reinforced composites with a ductile interphase. ICCM-18, Aug. 2011 (in Korea) (EI)

2010年(4篇)

43. Jiang Y.P., Yang H., Togho K. (2010): Three phase incremental damage theory of particulate reinforced composites with a brittle interphase. Composite Structures, 93, 1136-1142. (SCI/EI, IF: 5.407)

44. Jiang Y.P., Tohgo K., Yang H. (2010): Study of the effect of particle size on the effective modulus of polymeric composites on the basis of the molecular chain network microstructure. Computational Material Science, 49, 439-443. (SCI/EI, IF: 3.300)

45. Jiang Y.P., Tohgo K., Shimamura Y. (2010): Quantitative dependence of the effective modulus of particle reinforced composites on the partially-debonding damage. Journal of Solid Mechanics and Materials Engineering, 4, 1083-1093.

46. Jiang Y.P., Tohgo K., Shimamura Y. (2010): An analytical model to study the effective stiffness of the composites with periodically distributed sphere particles. Composite Structures, 92, 216-222.clear (SCI/EI, IF: 5.407)

2009年(2篇)

47. Jiang Y.P., Tohgo K., Shimamura Y. (2009): A micro-mechanics model for composites reinforced by regularly distributed particles with an inhomogeneous interphase. Computational Material Science, 46(2), 507-515. (SCI/EI, IF: 3.300)

48. Jiang Y.P., Tohgo K., Shimamura Y. (2009): Quantitative dependence of the effective modulus of particle reinforced composites on the partially-debonding damage. The 1th Asian Pacific Conference for Materials and Mechanics, Nov. 2009 (in Japan)

2008年(2篇)

49. Jiang Y.P., Yang H., Guo W.L. (2008): Numerical study of the influence of particle cracking to the damage of MMC by the incremental damage theory. Materials Science and Engineering A, 492, 370-376. (SCI/EI, IF: 5.234)

50. Jiang Y.P., Guo W.L., Yang H. (2008): Numerical studies on the effective shear modulus of particle reinforced composites with an inhomogeneous interphase. Computational Material Science, 43, 724-731. (SCI/EI, IF: 3.300)

2007年(2篇)

51. Jiang Y.P., Guo W.L., Yue Z.F. (2007): On the study of the creep damage development in circumferential notch specimens. Computational Material Science, 38, 653-659. (SCI/EI, IF: 3.300)

52. Jiang Y.P., Guo W.L., Yue Z.F. (2007): On the study of the effects of notch shape on the creep damage under cyclic loading. International Journal of Fatigue, 29, 836-842. (SCI/EI, IF: 5.186)

2006年(12篇)

53. Jiang Y.P., Guo W.L., Yue Z.F., Wang J. (2006): On the study of the effects of notch shape on creep damage development under constant loading. Materials Science and Engineering A, 437, 340-347. (SCI/EI, IF: 5.234)

54. Jiang Y.P., Wang, Y., Yue Z.F. (2006): Experiments and simulations of the mechanical performance of repaired panels. Materials Science and Engineering A, 415, 33-39. (SCI/EI, IF: 5.234)

55. Jiang Y.P., Guo W.L., Yue Z.F. (2006): Investigation of the three dimensional micromechanical behaviors of woven fabric composites. Mechanics of Composite Materials, 42, 141-150. (SCI/EI, IF: 1.333)

56. Jiang Y.P., Yue Z.F. (2006): Simulation and experimental studies of the repaired composite laminate. Materialwissenschaft und Werkstofftechnik, 37, 597-604. (SCI/EI, IF: 0.854)

57. Jiang Y.P., Guo W.L. (2006): Modeling the damage progression in the composite structure subjected to static contact crush. Key Engineering Materials, 325, 831-834. (SCI/EI, IF: 0.261)

58. Jiang Y.P. (2006): On the Study of the Mechanical Behaviours of the Flange Repaired Composite Panels under tension. Key Engineering Materials, 334, 285-288. (SCI/EI, IF: 0.261)

59. Jiang Y.P., Guo W.L., Yue Z.F. (2006): 在循环载荷作用下缺口形状对蠕变损伤的影响的数值研究. 材料研究学报 19, 520-523. (EI)

60. Jiang Y.P., Yue Z.F. (2006): 单剪螺栓连接复合材料叠层板螺栓孔周边应力场分布. 机械强度 28, 271-275. (EI)

61. Wang Y., Jiang Y.P., Yue Z.F. (2006): 复合材料层合板开口补强试验和数值模拟. 机械强度 28, 869-873. (EI)

62. Jiang Y.P. (2006): On the Study of the Mechanical Behaviors of the Flange Repaired Composite Panels under tension. The 5th Asian-Australasian Conference on Composite Materials, Nov. 2006, 285-288 (in Hong Kong)

63. Jiang Y.P., Guo W.L. (2006): Modeling the damage progression in the composite structure subjected to static contact crush. The 5th International Conference on Fracture and Damage Mechanics, Sep. 2006, 831-834 (in China)

64. Jiang Y.P., Guo W.L., Yue Z.F. (2006): On the study of the influence of notch shape on creep damage under cyclic loading. Proceeding of Beijing International Material Week, Jun. 2006, 1062-1066 (in China)

2005年(3篇)

65. Jiang Y.P., Yue Z.F. (2005): 间隙配合对复合材料叠层板螺栓连接强度的影响. 复合材料学报 22, 177-182. (EI)

66. Jiang Y.P., Zhang Q.M., Wang Y., Yue Z.F. (2005): 复合材料层合板开口补强试验和数值研究. 复合材料学报 22, 190-196. (EI)

67. Jiang Y.P., Yue Z.F., Lu W.S. (2005): 计入纤维交叉影响的缠绕复合材料结构有效刚度模型. 燃气涡轮试验与研究 18, 33-38.

2004年(7篇)

68. Jiang Y.P., Yue Z.F. (2004): Numerical study on creep damage of composites at high temperature. Acta Metallurgica Sinica (English letters), 17, 493-497. (EI)

69. Shao X.J., Jiang Y.P., Yue Z.F. (2004): Study on the effects of breakage of single fiber on creep behavior of fiber reinforced composite. Acta Metallurgica Sinica (English letters), 17, 498-502. (EI)

70. Wang X.M., Jiang Y.P., Wang Y.F., Yue Z.F. (2004): 圆棒拉伸试样蠕变过程中的应力应变分布分析. 航空材料学报 24, 58-62. (EI)

71. Jiang Y.P., Yue Z.F. (2004): 高温环境下纤维复合材料蠕变损伤的细观机理研究. 力学季刊 25, 523-527.

72. Jiang Y.P., Yue Z.F. (2004): Numerical study on creep damage of composite at high temperature. Proceeding of the 5th China-Japan Bilateral Symposium on High Temperature Strength of Materials, Aug. 2004, 114-119 (in China)

73. Jiang Y.P., Yue Z.F. (2004): 缠绕复合材料结构强度分析的有效刚度法; Chinese Society of Aeronautics and Astronautics 12th conference of aero-engine structure strength and vibration, Chengdu, Aug. 2004, 8-12 (in China)

74. Shao X.J., Jiang Y.P., Yue Z.F. (2004): Study on the effects of breakage of single fiber on creep behavior of fiber rein- forced composite. Proceeding of the 5th China-Japan Bilateral Symposium on High Temperature Strength of Materials, Aug. 2004, 114-119 (in China)

2003年(4篇)

75. Jiang Y.P., Yue Z.F., Wan J.S. (2003): 界面特性对金属基复合材料蠕变性能的影响. 计算力学学报 24, 58-62. (EI)

76. Jiang Y.P., Yue Z.F. (2003): 高温下的金属基复合材料双剪切试样应力应变有限元分析. 材料工程 10, 23-35. (EI)

77. Jiang Y.P., Yue Z.F., Han X.P. (2003): 由拉伸试样确定材料真实应力应变关系. 机械强度 25, 151-153. (EI)

78. Jiang Y.P., Yue Z.F., Wang X.M. (2003): 金属基复合材料的蠕变力学研究进展. 燃气涡轮试验与研究 16, 53-61.

2002年(1篇)

79. Jiang Y.P., Yue Z.F. (2002): 金属基复合材料多尺度问题研究; The Annual Meeting of Composite Materials, Chengdu, Sep. 2002, 18-22 (in China)

教育经历

1992.9 - 1996.7 齐河一中   普通高中毕业

1996.9 - 2000.7 烟台大学   机电自动化   大学本科毕业   工学学士学位

2000.9 - 2003.4 西北工业大学   固体力学   硕士研究生毕业   工学硕士学位

2002.9 - 2005.10 西北工业大学   固体力学   博士研究生毕业   工学博士学位

工作经历

2016.3 - 至今 南京航空航天大学

2010.6 - 2016.3 河海大学

2008.6 - 2010.5 静冈大学

2007.12 - 2008.5 南京航空航天大学

2005.10 - 2007.11 南京航空航天大学

社会兼职

2018年~现在,河北省和江西省科技厅评估专家

2007年~现在,担任国内外15种知名学术期刊的审稿人

2012年~现在,教育部学位与研究生教育发展中心评审专家

研究方向

柔性功能复合材料及电子器件


复合材料细观力学


多功能复合材料设计及制备