姓名：袁福平
性别：男
职称：研究员/博导
学历：博士
电话：
传真：
电子邮件:fpyuan@lnm.imech.ac.cn
通讯地址北四环西路15号，中国科学院力学研究所

简历：2016.7 – 今，研究员，中国科学院力学研究所，非线性力学国家重点实验室，材料介观力学性能的表征课题组
2009.12 – 2016.7，副研究员(2014年评为博导，2015年10月评为国科大岗位教授)，中国科学院力学研究所，非线性力学国家重点实验室，材料介观力学性能的表征课题组
2008.1 – 2009.12，博士后 in Mechanical and Aerospace Engineering and Materials Science Engineering Departments, Case Western Reserve University, USA
2002.8 – 2008.1，Ph.D. （博士）in Mechanical and Aerospace Engineering，Case Western Reserve University,USA
1999.8 – 2002.7，理学硕士，力学和机械工程系，工程力学专业，中国科学技术大学
1994.8 – 1999.7，理学学士，力学和机械工程系，材料强度和设计专业，中国科学技术大学

研究领域：1. 纳米结构金属的力学行为和变形机理
2. 材料的动态力学性能、计算固体力学
社会任职：
获奖及荣誉：爆炸力学第一届优秀青年****，2016
中国科学院青年创新促进会优秀会员，2016
国家自然科学基金委优秀青年科学基金项目获得者，2012
中国科学院青年创新促进会，2012
中国科学院卢嘉锡青年人才奖，2011
Case Prime Fellowship, Case Western Reserve University, 2002.9-2007.12
光华教育奖学金，中国科学技术大学，2000

代表论著：发表SCI近60篇 (*为通讯作者)，出版专著(章节)1本。
SCI 论文：
59. He, J.Y., Ma, Y., Yan, D.S., Jiao, S.H., *Yuan, F. P.,and Wu, X. L. (2018).Improving ductility by increasing fractionof interface zone in low C steel/304 SS laminates, Materials Science and Engineering A, (under review).
58. Ma, Y., *Yuan, F. P., Yang, M.X., Jiang, P., Ma, E., and Wu, X. L. (2018).Dynamic shear deformation of a CrCoNi medium-entropy alloy with heterogeneous grain structures, Acta Materialia, Vol. 148, 407-418.
57. Liu, X.L.,Yuan, F. P., Zhu, Y.T., and *Wu, X. L. (2018).Extraordinary Bauschinger effect in gradient structured copper, Scripta Materialia, Vol. 150, 57-60.
56. Wang, W., Jiang, P.,*Yuan, F. P., and Wu, X. L. (2018).Size effects of nano-spaced basal stacking faults on the strength and deformation mechanisms of nanocrystalline pure hcp metals,Philosophical Magazine (online).
55. Wang, W., Ma, Y., Yang, M.X., Jiang, P., *Yuan, F. P., and Wu, X. L. (2018).Strain rate effect on tensile behavior for a high specific strength steel: from quasi-static to intermediate strain rates,Metals, Vol. 8, 11.
54. Ma, Y., Yang, M.X., Jiang, P., *Yuan, F. P., and Wu, X. L. (2017).Plastic deformation mechanisms in a severely deformed Fe-Ni-Al-C alloy with superior tensile properties, Scientific Reports, Vol. 7, 15619.
53. Bian, X. D., *Yuan, F. P., Zhu, Y. T., and*Wu, X. L.(2017). Gradient structure produces superior dynamic shear properties,Materials ResearchLetters, Vol. 5, 501-507.
52. Wang, W., Yang, M.X., Yan, D.S., Jiang, P., *Yuan, F. P., and Wu, X. L. (2017).Deformation mechanisms for superplastic behaviors in a dual-phase high specific strength steel with ultrafine grains, Materials Science and Engineering A, Vol. 702, 133-141.
51. Wang, W.,*Yuan, F. P., Jiang, P., and Wu, X. L. (2017).Size effects of lamellar twins on the strength and deformation mechanisms of nanocrystalline hcp cobalt, Scientific Reports, Vol. 7, 9550.
50. Bian, X. D., *Yuan, F. P., Wu, X. L., and Zhu, Y. T.(2017). The evolution of strain gradient and anisotropy in gradient structures,Metallurgical and Materials Transactions A, Vol. 48A, 3951-3960.
49. Bian, X. D., *Yuan, F. P., and Wu, X. L. (2017). Correlation between strain rate sensitivity and characteristics of Portevin-LeChatelier bands in a twinning-induced plasticity steel, Materials Science and Engineering A, Vol. 696, 220-227.
48. Zhang, T., Guo, Z. R., Yuan, F. P., and *Zhang, H. S.(2017). Investigation on the plastic work converted to heat of 7075-T651 during impact process based on infrared temperature measurement technology, Acta Mechanica Sinica (DOI 10.1007/s10409-017-0673-8).
47. Wang W., Zhang H. S., Yang, M. X., Jiang, P., *Yuan, F. P., and Wu, X. L. (2017). Shock and spall behaviors of a high specific strength steel: Effects of impact stress and microstructure, Journal of Applied Physics, Vol.121, 135901.
46. Chen, L., Yuan, F. P., Jiang, P., Xie, J. J., and *Wu, X. L. (2017). Mechanical properties and deformation mechanism of Mg-Al-Zn alloy with gradient microstructure in grain size and orientation, Materials Science and Engineering A, Vol. 694, 98-109.
45. *Yuan, F. P. (2017). Strengthening effects of various grain boundaries with nano-spacing as barriers of dislocation motion from molecular dynamics simulations, Science China G, Vol. 60, 034611.
44. Xing, J. X.,*Yuan, F. P., and Wu, X. L. (2017). Enhanced quasi-static and dynamic shear properties by heterogeneous gradient and lamella structures in 301 stainless steels, Materials Science and Engineering A, Vol. 680, 305-316.
43. *Wu, X. L., Yang, M. X., Yuan, F. P., Chen, L., and Zhu, Y. T. (2016). Combining gradient structure and TRIP effect to produce austenite stainless steel with high strength and ductility, Acta Materialia, Vol. 112, 337-346.
42. Yang, M. X., Pan, Y., Yuan, F. P., Zhu, Y. T., and *Wu, X. L. (2016). Back stress strengthening and strain hardening in gradient structure, Materials Research Letters, Vol. 4(3), 145-151.
41. Yang, M. X., Yuan, F. P., Xie, Q. G., Wang, Y. D., Ma, E., and *Wu, X. L. (2016). Strain hardening in Fe-16Mn-10Al-0.86C-5Ni high specific strength steel, Acta Materialia, Vol. 109, 213-222.
40.*Yuan, F. P., Chen, P., Feng, Y. P., Jiang, P., and Wu, X. L. (2016). Strain Hardening behaviors and strain rate sensitivity of gradient-grained Fe under compression over a wide range of strain rates,Mechanics of Materials, Vol. 95, 71-82.
39. *Wu, X. L., Yang, M. X., Yuan, F. P., Wu, G. L., Wei, Y. J., Huang, X. X. and *Zhu, Y. T. (2015). Heterogeneous lamella structure unites ultrafine-grain strength with coarse-grain ductility, Proceeding of the National Academy of Sciences (PNAS), Vol. 112, 14501-14505.
38. *Yuan, F. P. andWu, X. L.(2015). Size effect and boundary type on the strengthening of nanoscale domains in pure nickel,Materials Science and Engineering A, Vol. 648, 243-251.
37. Wang, W., *Yuan, F. P. andWu, X. L.(2015). Smaller critical size and enhanced strength by nano-laminated structure in nickel, Computational Materials Science, Vol. 110, 83-90.
36. *Yuan, F. P. andWu, X. L.(2015). Size effect and atomistic deformation mechanisms of hierarchically nanotwinned fcc metals under nanoindentation, Journal of Materials Science, Vol. 50, 7557-7567.
35. *Wu, X. L., Yuan, F. P., Yang, M. X., Jiang, P., Zhang, C. X., Chen, L., Wei, Y. G., and *Ma E. (2015). Nanodomained nickel unite nanocrystal strength with coarse-grain ductility, Scientific Reports, Vol. 5, 11728.
34. *Yuan, F. P., Bian, X. D., Jiang, P., Yang, M. X.,and Wu, X. L. (2015). Dynamic shear response and evolution mechanisms of adiabatic shear band in an ultrafine-grained austenite-ferrite duplex steel,Mechanics of Materials, Vol. 89, 47-58.
33. Li, W. B., *Yuan, F. P.,andWu, X. L. (2015). Atomistic tensile deformation mechanisms of Fe with gradient nano-grained structure, AIP Advances, Vol. 5, 087120.
32. *Wu, X. L., Jiang, P., Chen, L., Zhang, J. F.,Yuan, F. P., andZhu, Y. T.(2014). Synergetic strengthening by gradient structure, Materials Research Letters, Vol. 2(4), 185-191.
31. *Yuan, F. P. and Wu, X. L. (2014). Scaling laws and deformation mechanisms of nanoporous copper under adiabatic uniaxial strain compression, AIP Advances, Vol. 4, 127109.
30. Chen, L., Yuan, F. P., Jiang, P., Xie, J. J., and *Wu, X. L. (2014). Simultaneous improvement of tensile strength and ductility in micro-duplex structure consisting of austentite and ferrite, Materials Science and Engineering A, Vol.618, 563-571.
29. *Yuan, F. P., Chen, P.,andWu, X. L.(2014). Tensile deformation mechanisms of the hierarchical structure consisting of both twin-free grains and nanotwinned grains, Philosophical Magazine Letters, Vol.94(8), 514-521.
28. *Wu, X. L., Jiang, P., Chen, L., Yuan, F. P., and*Zhu, Y. T.(2014). Extraordinary strain hardening by gradient structure, Proceeding of the National Academy of Sciences (PNAS), Vol.111(20), 7197-7201.
27. *Yuan, F. P., Chen, L.,Jiang, P.andWu, X. L.(2014). Twin boundary spacing effects on shock response and spall behaviors of hierarchically nanotwinned fcc metals,Journal of Applied Physics, Vol. 115, 063509.
26. *Yuan, F. P.and Wu, X. L., (2014).Hydrostatic pressure effects on deformation mechanisms of nanocrystalline fcc metals,Computational Materials Science, Vol. 85, 8-15.
25. *Yuan, F. P.and Wu, X. L., (2013). Atomistic scale fracture behaviors in hierarchically nanotwinned metals, Philosophical Magazine, Vol. 93, 3248-3259.
24. *Yuan, F. P.and Wu, X. L., (2013). Formation sequences and roles of multiple deformation twins during the plastic deformation in nanocrystalline fcc metals,Materials Science and Engineering A, Vol. 580, 58-65.
23. *Liu, X. M., Yuan, F. P.and Wei, Y. G., (2013). Grain size effect onthe hardness of nanocrystal measured by nanosize indenter, Applied Surface Science, Vol. 279, 159-166.
22. *Yuan, F. P.and Wu, X. L., (2013). Size effects of primary/secondary twins on the atomistic deformation mechanisms in hierarchically nanotwinned metals,Journal of Applied Physics, Vol. 113, 203516.
21. Yuan, F. P.and *Prakash, V.,(2013). Plate impact experiments to investigate shock-induced inelasticity in westerly granite, International Journal of Rock Mechanics and Mining Sciences, Vol. 60, 277-287.
20. *Yuan, F. P.and Wu, X. L.(2012). Shock response of nanotwinned copper from large-scale molecular dynamics simulations, Physical Review B, Vol. 86, 134108.
19. *Yuan, F. P., Jiang, P., and Wu, X. L.(2012). Annealing effect on the evolution of adiabatic shear band under dynamic shear loading in ultra-fine-grained iron, International Journal of Impact Engineering, Vol. 50, 1-8.
18. Yuan, F. P.and *Prakash, V.,(2012). Laboratory observations of transient frictional slip in rock-analog materials at co-seismic slip rates and rapid changes in normal stress, Tectonophysics, Vol. 558-559, 58-69.
17. Chen, L., Yuan, F. P., Jiang, P. and *Wu, X. L., (2012). Mechanical properties and nanostructures in a duplex stainless steel subjected to equal channel angular pressing, Materials Science and Engineering A, Vol. 551, 154-159.
16. *Yuan, F. P.and Wu, X. L.,(2012). Layer thickness dependent tensile deformation mechanisms in sub-10 nm multilayer nanowires, Journal of Applied Physics, Vol. 111, 124313.
15. *Yuan, F. P., (2012). Atomistic simulation study of tensile deformation in bulk nanocrystalline iron, Science China G, Vol. 55, 1657-1663.
14. *Yuan, F. P., Jiang, P., Xie, J. J., and Wu, X. L., (2012). Analysis of spherical indentation of materials with plastically graded surface layer, International Journal of Solids and Structures, Vol. 49, 527-536.
13. Yuan, F. P., *Prakash, V. and Tullis, T. (2011). Origin of pulverized rocks during earthquake fault rupture, Journal of Geophysical Research - Solid Earth, Vol. 116, B06309.
12. Yuan, F. P., *Prakash, V. and Lewandowski J.J. (2010). Shear strength and flow behavior of a Zirconium-based Bulk Metallic Glass, Mechanics of Materials, Vol. 42, 248-255.
11. Sunny, G., Yuan, F. P., Lewandowski J.J. and *Prakash, V. (2009). Design of Inserts for Split-Hopkinson Pressure Bar Testing of Low Strain-to-failure Materials, Experimental Mechanics, Vol. 49, 479-490.
10. Yuan, F. P., *Prakash, V. and Lewandowski J.J. (2009). Spall Strength of a Zirconium-based Bulk Metallic Glass under Shock-induced Compression-and-Shear Loading, Mechanics of Materials, Vol. 41, 886-897.
9. Tsai, L., Yuan, F. P., *Prakash, V., Dandekar, D. P. and Rajendran A. M. (2009). Shock compression of S2-glass fiber reinforced polymer composites. Journal of Applied Physics, Vol. 105, 093526.
8. Yuan, F. P., Liou, N. S., *Prakash, V., (2009). High-speed friction slip at metal-on-metal Interfaces, International Journal of Plasticity, Vol. 25, 612-634.
7. Sunny, G., Yuan, F. P., *Prakash, V. and Lewandowski J.J. (2009). Effect of High Strain Rates on Peak Stress in a Zr-based Bulk Metallic Glass, Journal of Applied Physics, Vol. 104, 093522.
6. Yuan, F. P., and *Prakash, V., (2008). Use of a Modified Torsional Kolsky Bar to Study Frictional Resistance in Rock-analog Materials at Co-Seismic Slip Rates, International Journal of Solids and Structures, Vol. 45, 4247-4263.
5. Yuan, F. P., Tsai, L., *Prakash, V., Dandekar, D. P. and Rajendran A. M., (2008). Dynamic Shear Strength of S2 Glass Fiber Reinforced Polymer Composites under Shock Compression, Journal of Applied Physics, Vol. 103, 103537.
4. Yuan, F. P., and *Prakash, V., (2008). Slip Weakening in Rocks and Analog Materials at Co-seismic Slip Rates, Journal of the Mechanics and Physics of Solids, Vol. 56, 542-560.
3. Yuan, F. P., Tsai, L., *Prakash, V., Dandekar, D. P. and Rajendran A. M., (2007). Spall Strength of Glass Fiber Reinforced Polymer Composites, International Journal of Solids and Structures，Vol. 44, 7731-7747.
2. Yuan, F. P., *Prakash, V. and Lewandowski J.J. (2007). Spall Strength and Hugoniot Elastic Limit of a Zirconium-based Bulk Metallic Glass under Planar Shock Compression, Journal of Materials Research, Vol. 22, 402-411.
1. *Li, Y. C., Huang, C. Y., Yuan, F. P., and Jin, Y. M., (2001). A study on the effect of radial inertia on the elasto-plastic combined stress wave propagation in thin-walled tubes, ACTA MECHANICA SOLIDA SINICA, Vol. 14, 58-66.
出版书籍：
Yuan, F. P., Tsai, L., Prakash, V., Dandekar, D. P. and Rajendran A. M., (2009). Chapter 3: Dynamic response of glass-fiber reinforced polymer composites under shock wave loading. In: Shukla, A., Ravichandran, G. and Rajapakse, Y. eds, Dynamic Failure of Materials and Structures, published by Springer, 63-104.
EI 论文：
Li W.B., Yuan, F. P.and Wu, X.L. (2013). Atomistic simulation study on the tensile deformation behaviour of nanocrystalline Ni, Materials Science Forum, Vol. 745-746, 315-320.
Yuan, F. P.and Wu, X.L. (2011).Evolution of adiabatic shear band in ultra-fine-grained iron under dynamic shear loading, Materials Science Forum, Vol. 667-669, 761-766.
Prakash, V., Nathenson, D., and Yuan, F. P., (2011). Spall strength of AS800 silicon nitride under combined compression and shear impact loading, Conference Proceedings of the Society for Experimental Mechanics Series, V 1, 339-347.
Prakash, V., Yuan, F. P., and Parikh, N., (2011). Mechanisms of slip weakening and healing in glass at Co-seismic slip rates, Conference Proceedings of the Society for Experimental Mechanics Series, V 1, 387-399.
Prakash, V., Nathenson, D., and Yuan, F. P., (2010). Spall strength of AS800 silicon nitride under combined compression and shear impact loading, Society for Experimental Mechanics - SEM Annual Conference and Exposition on Experimental and Applied Mechanics, v 2, 1471-1479.
Prakash, V., Yuan, F. P., and Parikh, N., (2010). Mechanisms of slip weakening and healing in glass at Co-seismic slip rates, Society for Experimental Mechanics - SEM Annual Conference and Exposition on Experimental and Applied Mechanics, v 2, 1647-1659.
Yuan F. P.and Prakash, V., (2009). Origin of pulverized rocks during co-seismic slip, Society for Experimental Mechanics - SEM Annual Conference and Exposition on Experimental and Applied Mechanics, v 2, 714-723.
Sunny, G., Yuan, F. P., Prakash, V., and Lewandowski, J. J., (2009). Effect of strain-rate and pressure in a Zr-based bulk metallic glass, Society for Experimental Mechanics - SEM Annual Conference and Exposition on Experimental and Applied Mechanics, v 4, 2288-2289.
Yuan, F. P.and Prakash, V. (2009). Plate impact experiments to investigate shock-induced inelasticity in Westerly granite, Society for Experimental Mechanics - SEM Annual Conference and Exposition on Experimental and Applied Mechanics, v 2, 882-892.
Yuan, F. P.and Prakash, V. (2009). Shock-release and shock-reshock response of S2-glass fiber reinforced polymer composites, Society for Experimental Mechanics - SEM Annual Conference and Exposition on Experimental and Applied Mechanics, v 3, 1932-1933.
Sunny, G., Yuan, F. P., Prakash, V., and Lewandowski, J. J., (2008). High strain-rate compression of Zr-based bulk metallic glass, Society for Experimental Mechanics - 11th International Congress and Exhibition on Experimental and Applied Mechanics, v 3, 1302-1314.
Yuan, F. P., Prakash, V., and Lewandowski, J. J., (2008). Pressure effects on the flow stress of a zirconium-based bulk-metallic-glass, Society for Experimental Mechanics - 11th International Congress and Exhibition on Experimental and Applied Mechanics, v 3, 1579-1587.
Yuan, F. P., Prakash, V., and Lewandowski, J. J., (2008). Spall strength of a zirconium-based bulk metallic glass, Society for Experimental Mechanics - 11th International Congress and Exhibition on Experimental and Applied Mechanics, v 4, 1893-1902.
Yuan, F. P.and Prakash, V., (2006). Investigations of high-speed friction at metal-on-metal interfaces, Proceedings of the 2006 SEM Annual Conference and Exposition on Experimental and Applied Mechanics, v 3, 1314-1322.
Yuan, F. P., Tsai, L. and Prakash, V., (2006). Spall strength of S2-glass fiber reinforced polymer composites, Proceedings of 2006 ASME International Mechanical Engineering Congress and Exposition, IMECE2006 - Applied Mechanics Division.
Yuan, F. P.and Prakash, V., (2006). Dynamic slip resistance at metal-on-metal interfaces, Proceedings of 2006 ASME International Mechanical Engineering Congress and Exposition, IMECE2006 - Applied Mechanics Division.
Yuan, F. P.and Prakash, V., (2005). Sliding resistance of rocks and analog materials at co-seismic slip rates, Proceedings of the 2005 SEM Annual Conference and Exposition on Experimental and Applied Mechanics, 519-526.
Sunny, G., Yuan, F. P., Lewandowski, J. J., and Prakash, V., (2005). Dynamic stress-strain response of Zr41.25Ti 13.75Ni10Cu12.5Be22.5 bulk metallic glass, Proceedings of the 2005 SEM Annual Conference and Exposition on Experimental and Applied Mechanics, 157-164.
李永池, 朱林法，胡秀章，袁福平，曹结东，(2003). 粘塑性薄壁管中复合应力波的传播特性研究, 爆炸与冲击, Vol. 23 (1), 1-5.
李永池，袁福平，胡秀章, 朱林法，王道荣，(2002). 卵形头部弹丸对混凝土靶板侵彻的二维数值模拟, 弹道学报, Vol. 14 (1), 14-19.
其他论文：
Yuan, F. P., Jiang, P. and Wu, X.L. (2011). Annealing and strain rate effects on the mechanical behavior of ultrafine-grained iron produced by SPD. Theoretical & Applied Mechanics Letters, Vol. 2, 021002.
李永池, 谭福利, 郭扬, 袁福平, 金属损伤演化方程和层裂准则的确定, (2003). 宁波大学学报：理工版，Vol. 16 (4), 442-446.
李永池，袁福平，等, (2001). 横观各向异性弹塑性本构关系和碳纤维树脂材料中的应力波传播，中南工业大学学报 (自然科学版), Vol. 32, 20-22.
李永池，袁福平，等, (2001). 耦合冲击边界条件下塑性波衰减的级数解，中南工业大学学报 (自然科学版) , Vol. 32, 151-153.
金咏梅 , 袁福平 , 黄承义 , 李永池, (2000). 径向惯性对薄壁圆管中弹塑性复合应力波传播的影响, 固体力学学报, Vol. 21, 109-116.
李永池, 王红五, 江松青, 袁福平, (2000). 含损伤材料热塑性本构关系的普适表述, 徐秉业, 黄筑平主编：《塑性力学和地球动力学进展(王仁院士八十寿辰庆贺文集)》，北京: 万国学术出版社.

承担科研项目情况：高比强度纳米结构钢动态塑性变形的微观机理研究，国家自然科学面上基金 (负责人，No.**)，2017.1-2020.12
梯度纳米层片结构金属的动态变形机理研究，国家自然科学面上基金 (负责人，No.**)，2015.1-2018.12
冲击动力学，国家自然科学优秀青年基金（负责人，No.**）, 2013.1-2015.12
BCC 超细/纳米晶金属动态局部剪切行为的温度效应，国家自然科学基金 (负责人， No. **)，2011.1-2013.12
冲击载荷下超细晶铁的局部剪切失稳机制研究，所特聘副研启动基金项目 (负责人)，2010.1-2012.12
另外还参与院B类先导专项、国家重点研发计划、基金委重大项目、国防973、973、院知识创新工程项目