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楚海建

创建时间:  2019-07-01  丁珏   浏览次数:

姓名:楚海建

办公室:HE203办公电话:021-66136103

通信地址:上海市上大路99号HE楼,邮编:200444

电子邮件:hjchu@shu.edu.cn


工作经历

2013/03至今,上海大学,理学院力学系,教授(上海市东方学者特聘教授)

2011/01-2013/01,美国洛斯阿拉莫斯国家实验室,材料科学与技术部,访问学者

2012/01-2012/07,美国康涅狄格大学,工学院材料系,研究专家

2009/12-2011/01,美国阿克伦大学,工学院土木工程系,访问学者

1996/08-2013/02,扬州大学,水利学院,教师


教育经历

2003/09-2006/07,北京大学,工学院力学系,固体力学专业,博士

1999/09-2001/06,扬州大学,水利学院,水利水电工程专业,硕士

1996/09-1992/07,苏州大学,物理学院,检测专业,本科


研究方向

主要从事弹性力学问题基本解、微纳米结构力学性能与优化、位错动力学、材料增强增韧机理等研究。


发表论文

1. Y.H. Zhang, Y.H. Xu, H.J. Chu*. Size effect of layer thickness on stress fields due to interface core-spreading dislocation arrays in multilayers, SCIENCE CHINA Technological Sciences, 2020,63: 277-288.

2. Y.H. Xu, Y.H. Zhang, H.J. Chu*. Lattice mismatch and twist partitioning at commensurate dichromatic pattern of two-phase interfaces, Journal of Materials Research, 2021, 36.

3. X.L. Huang, C.Y.T. Lv, H.J. Chu*. Anomalous shape effect of nanosized helium bubble on the elastic field in irradiated tungsten, Scientific Reports, 2021, 11.

4. M. Zaiser*, P. Moretti; H.J. Chu. Stochastic Crystal Plasticity Models with Application to Slip Channel Formation in Irradiated Metals, Advanced Engineering Materials, 2019, 21:201901208.

5.H.J. Chu, H.C. Huang, J. Wang. Clustering on Magnesium Surfaces- Formation and Diffusion Energies, Scientific Reports, 2017, 7(1): 5176.

6. Y.H. Zhang, J. Liu, H.J. Chu*, J. Wang. Elastic fields of a core-spreading dislocation in anisotropic bimaterials, International Journal of Plasticity, 2016.6, 81: 231~248.

7. X.Z. Xiao, D.K. Song, J.M. Xue, H.J. Chu*, H.L. Duan*. A self-consistent plasticity theory for modeling the thermo-mechanical properties of irradiated FCC metallic polycrystals, Journal of the Mechanics and Physics of Solids, 2015.01.30, 78: 1~16.

8. X.Z. Xiao, D.K. Song, J.M. Xue, H.J. Chu*, H.L. Duan*. A size-dependent tensorial plasticity model for FCC single crystal with irradiation, International Journal of Plasticity, 2015.2.1, 65: 152~167.

9. H.J. Chu, E. Pan. Elastic fields due to dislocation arrays in anisotropic bimaterials, International Journal of Solids and Structures, 2014.5.15, 51(10): 1954~1961.

10. H.J. Chu, J. Wang, I.J. Beyerlein, E. Pan. Dislocation models of interfacial shearing induced by an approaching lattice glide dislocation, International Journal of Plasticity, 2013.2, 41: 1~13.

11. H.J. Chu, C.Z. Zhou, J. Wang, I.J. Beyerlein. An analytical model for the critical shell thickness in core/shell nanowires based on crystallographic slip, Journal of the Mechanics and Physics of Solids, 2013.11, 61(11): 2147~2160.

12. H.J. Chu, E. Pan, X. Han, J. Wang. Beyerlein, I.J., Elastic fields of dislocation loops in three-dimensional anisotropic bimaterials, Journal of the Mechanics and Physics of Solids, 2012, 60(3): 418~431.

13. H.J. Chu, J. Wang, C.Z. Zhou, I.J. Beyerlein, Self-energy of elliptical dislocation loops in anisotropic crystals and its application for defect-free core/shell nanowires, Acta Materialia, 2011, 59(18): 7114~7124.

14. H.J. Chu, J. Wang, I.J. Beyerlein, Anomalous reactions of a supersonic coplanar dislocation dipole: Bypass or twinning? Scripta Materialia, 2012, 67(1): 69~72.

15. J. Liu, Y.H. Zhang, H.J. Chu*. Modeling core-spreading of interface dislocation and its elastic response in anisotropic bimaterial, Applied Mathematics and Mechanics-English Edition, 2017.2, 38(2): 231~242.

16. H.J. Chu*, M.Z. Wang. The Definition of Point Sources: Point Charge, Mass Point and Heat Point Source-A Generalized Sternberg Definition of Concentrated Forces, Journal of Applied Mechanics-Transactions of the ASME, 2014.1, 81(1): 1~3.

17. H.J. Chu, H.M. Wang, Y.F. Zhao, E. Pan. Dislocation and traction loads over an elliptical region in anisotropic magnetoelectroelastic bimaterials, Smart Materials and Structures, 2013, 22(12): 1~14.

18. H.J. Chu, E. Pan, J. Wang, I.J. Beyerlein. Elastic Displacement and Stress Fields Induced by a Dislocation of Polygonal Shape in an Anisotropic Elastic Half-Space, Journal of Applied Mechanics-Transactions of the ASME, 2012, 79(2): 1~9.

19. H.J. Chu, C.Z. Zhou, J. Wang, I.J. Beyerlein. Misfit strain relaxation mechanisms in core/shell nanowires, JOM, 2012, 64(10): 1258~1262.

20. H.J. Chu, E. Pan, J.J. Ramsey, J. Wang, C.X. Xue. A general perturbation method for inhomogeneities in anisotropic and piezoelectric solids with applications to quantum-dot nanostructures, International Journal of Solids and Structures, 2011, 48(5): 673~679.

21. H.J. Chu, E. Pan, J. Wang, I.J. Beyerlein. Three-dimensional elastic displacements induced by a dislocation of polygonal shape in anisotropic elastic crystals, International Journal of Solids and Structures, 2011, 48(7-8): 1164~1170.

22. H.J. Chu, J. Wang. Strain distribution in arbitrarily shaped quantum dots with nonuniform composition, Journal of Applied Physics, 2005, 98(3).

23. J. Wang, H.J. Chu. A perturbation theory for calculating strain distributions in heterogeneous and anisotropic quantum dot structures. Journal of Applied Physics, 2006, 100(5) .

24. H.J. Chu, Y. Zhang, E. Pan, Q.K. Han. Circular surface loading on a layered multiferroic half space, Smart Materials and Structures, 2011, 20(3): 1~11.

25. H.J. Chu, J.X. Wang. An approach for calculating strain distributions in arbitrarily shaped quantum dots, Chinese Physics Letters, 2005, 22(3): 667~670.

26. H.J. Chu, M.Z. Wang. A note on the limit definition of concentrated loads, Journal of Applied Mechanics-Transactions of the ASME, 2005.5, 72(3): 418~421.

27. S.W. Wu, G. Wang, Q. Wang, Y.D. Jia, J. Yi, Q.J. Zhai, J.B. Liu, B.A. Sun, H.J. Chu, J. Shen, P.K. Liaw, C.T. Liu, T.Y. Zhang. Enhancement of strength-ductility trade-off in a high-entropy alloy through a heterogeneous structure Acta Materialia, 2019, 165: 444-458.

28. L.R. Chen, X.Z. Xiao, L. Yu, H.J. Chu, H.L. Duan. Texture evolution and mechanical behaviour of irradiated face-centred cubic metals, Proceedings of the Royal Society of London - Series A: Mathematical and Physical Sciences, 2018.2.28, 474: 20170604.

29. D.K. Song, X.Z. Xiao, H.J. Chu, H.L. Duan. Mechanical properties of irradiated multi-phase polycrystalline BCCmaterials, Acta Mechanica Sinica, 2015, 31: 191~204.

30. X.Z. Xiao, H.J. Chu, H.L. Duan. Effect of grain boundary on the mechanical behaviors of irradiated metals: a review, SCIENCE CHINA Physics, Mechanics & Astronomy, 2016, 59(6): 1~11.

31. L. Yu, X.Z. Xiao, L.R. Chen, H.L. Duan, H.J. Chu. A micromechanical model for nano-metallic-multilayers with helium irradiation, International Journal of Solids and Structures, 2016.12.15, 102: 267~274

32. J.K. Chen, J. Zhu, J. Wang, M. Yuan, H.J. Chu. The properties of the Poisson's ratio of microcellular foams with low porosity: non-stationary, negative value, and singularity, Computational Materials Science, 2008, 41(3): 334~343.

33. D.K Song, X.Z. Xiao, J.M. Xue, H.J. Chu, H.L. Duan. Mechanical properties of irradiated multi-phase polycrystalline BCC materials, Acta Mechanica Sinica, 2015.4, 31(2): 191~204.

34. X. Z. Xiao, D. K. Song, H. J. Chu, J. M. Xue, H. L. Duan. Mechanical properties for irradiated face-centred cubic nanocrystalline metals, Proceedings of the Royal Society A-Mathematical Physical and Engineering Sciences, 2015.5.8, 471(2177).

35. X.Z. Xiao, D.K. Song, H.J. Chu, J.M. Xue, H.L. Duan. Mechanical behaviors of irradiated FCC polycrystals with nanotwins, International Journal of Plasticity, 2015.7.17, 74: 110~126.

36. H.W. Yang, W.L. Luan, R. Cheng, S.T. Tu, H.J. Chu. Synthesis of quantum dots via microreaction: Structure optimization for microreactor system, Journal of Nanoparticle Research, 2011, 13(8): 3335~3344.

37. Q. Han, M. Wang, H. Chu Nonsynchronous Vibrations of Rotor System with an Oil-Block inside the Rotating Drum, Advances in Vibration Engineering, 2013, 12(2): 165~178.

38.H. J. Chu, E. Pan*, J. Wang. Elastic and electric fields in quantum wire/dot nanostructures via the perturbation theory. IUTAM Symposium on Surface Effects in the Mechanics of Nanomaterials and Heterostructures, 2010, 27-35, Beijing. 2013.

39.楚海建,陈建康,王建祥.半导体量子点结构的特性及力学研究进展,力学进展, 2007, 37(4):481-495.

40.肖厦子,宋定坤,楚海建,薛建明,段慧玲.金属材料力学性能的辐照硬化效应, 力学进展, 2015, 45(1): 141-178.

41.吕陈扬韬,黄鑫龙,林成辉,楚海建. FCC辐照金属铜材料中氦泡平衡内压的分子模拟及其尺度效应,固体力学学报,2020,41(06).

42.胡晓郁,都亚鹏,楚海建.基于晶体塑性有限元研究开孔对多晶板材力学性能的影响[J]. 上海大学学报(自然科学版),doi: 10.12066/j.issn.1007-2861.2159.

43.黄鑫龙,吕陈扬韬,孙昱瑶,楚海建.钨基辐照材料中纳米氦泡诱导位错成核的分子模拟,上海大学学报(自然科学版),doi:10.12066/j.issn.1007-2861.2222.

44.胡晓郁,都亚鹏,楚海建.L型碳纤维增强复合材料连接件承载力的渐进损伤分析. 上海大学学报 2021.

45.陈建康,黄筑平,白树林,楚海建.单向应力条件下松弛时间率相关的非线性弹性本构模型, Acta Polymerica Sinica, 2003, (3): 414-419

46.许庆春; 杨开云; 楚海建.《理论力学》中国水利水电出版社,2010.


科研项目

1.主持国家自然科学基金面上项目“辐照条件下层状微纳米结构金属材料力学性能研究”.

2.主持国家自然科学基金青年基金“半导体量子点结构的力学研究”.

3.主持上海市自然科学基金“层状微纳米金属材料抗辐照力学性能研究”.

4.主持金属材料强度国家重点实验室“层状微纳米材料强韧化机理研究”.

5.主持上海市教委东方学者人才项目.

6.参研国防基础科研科学挑战专题项目“基于孔洞演化机制的材料动态损伤断裂准则”.

7.参研空客(Airbus)“Fatigue Virtual Test Simulation”.


所获荣誉

1. 2008年,扬州大学优秀青年骨干教授,

2. 2012年,江苏省“青蓝工程”优秀青年骨干教师

3. 2013年,上海市东方学者特聘教授


讲授课程

理论力学、材料力学、弹性力学、塑性力学、微细观力学

上一条:张东升

下一条:陈红勋


楚海建

创建时间:  2019-07-01  丁珏   浏览次数:   

姓名:楚海建

办公室:HE203办公电话:021-66136103

通信地址:上海市上大路99号HE楼,邮编:200444

电子邮件:hjchu@shu.edu.cn


工作经历

2013/03至今,上海大学,理学院力学系,教授(上海市东方学者特聘教授)

2011/01-2013/01,美国洛斯阿拉莫斯国家实验室,材料科学与技术部,访问学者

2012/01-2012/07,美国康涅狄格大学,工学院材料系,研究专家

2009/12-2011/01,美国阿克伦大学,工学院土木工程系,访问学者

1996/08-2013/02,扬州大学,水利学院,教师


教育经历

2003/09-2006/07,北京大学,工学院力学系,固体力学专业,博士

1999/09-2001/06,扬州大学,水利学院,水利水电工程专业,硕士

1996/09-1992/07,苏州大学,物理学院,检测专业,本科


研究方向

主要从事弹性力学问题基本解、微纳米结构力学性能与优化、位错动力学、材料增强增韧机理等研究。


发表论文

1. Y.H. Zhang, Y.H. Xu, H.J. Chu*. Size effect of layer thickness on stress fields due to interface core-spreading dislocation arrays in multilayers, SCIENCE CHINA Technological Sciences, 2020,63: 277-288.

2. Y.H. Xu, Y.H. Zhang, H.J. Chu*. Lattice mismatch and twist partitioning at commensurate dichromatic pattern of two-phase interfaces, Journal of Materials Research, 2021, 36.

3. X.L. Huang, C.Y.T. Lv, H.J. Chu*. Anomalous shape effect of nanosized helium bubble on the elastic field in irradiated tungsten, Scientific Reports, 2021, 11.

4. M. Zaiser*, P. Moretti; H.J. Chu. Stochastic Crystal Plasticity Models with Application to Slip Channel Formation in Irradiated Metals, Advanced Engineering Materials, 2019, 21:201901208.

5.H.J. Chu, H.C. Huang, J. Wang. Clustering on Magnesium Surfaces- Formation and Diffusion Energies, Scientific Reports, 2017, 7(1): 5176.

6. Y.H. Zhang, J. Liu, H.J. Chu*, J. Wang. Elastic fields of a core-spreading dislocation in anisotropic bimaterials, International Journal of Plasticity, 2016.6, 81: 231~248.

7. X.Z. Xiao, D.K. Song, J.M. Xue, H.J. Chu*, H.L. Duan*. A self-consistent plasticity theory for modeling the thermo-mechanical properties of irradiated FCC metallic polycrystals, Journal of the Mechanics and Physics of Solids, 2015.01.30, 78: 1~16.

8. X.Z. Xiao, D.K. Song, J.M. Xue, H.J. Chu*, H.L. Duan*. A size-dependent tensorial plasticity model for FCC single crystal with irradiation, International Journal of Plasticity, 2015.2.1, 65: 152~167.

9. H.J. Chu, E. Pan. Elastic fields due to dislocation arrays in anisotropic bimaterials, International Journal of Solids and Structures, 2014.5.15, 51(10): 1954~1961.

10. H.J. Chu, J. Wang, I.J. Beyerlein, E. Pan. Dislocation models of interfacial shearing induced by an approaching lattice glide dislocation, International Journal of Plasticity, 2013.2, 41: 1~13.

11. H.J. Chu, C.Z. Zhou, J. Wang, I.J. Beyerlein. An analytical model for the critical shell thickness in core/shell nanowires based on crystallographic slip, Journal of the Mechanics and Physics of Solids, 2013.11, 61(11): 2147~2160.

12. H.J. Chu, E. Pan, X. Han, J. Wang. Beyerlein, I.J., Elastic fields of dislocation loops in three-dimensional anisotropic bimaterials, Journal of the Mechanics and Physics of Solids, 2012, 60(3): 418~431.

13. H.J. Chu, J. Wang, C.Z. Zhou, I.J. Beyerlein, Self-energy of elliptical dislocation loops in anisotropic crystals and its application for defect-free core/shell nanowires, Acta Materialia, 2011, 59(18): 7114~7124.

14. H.J. Chu, J. Wang, I.J. Beyerlein, Anomalous reactions of a supersonic coplanar dislocation dipole: Bypass or twinning? Scripta Materialia, 2012, 67(1): 69~72.

15. J. Liu, Y.H. Zhang, H.J. Chu*. Modeling core-spreading of interface dislocation and its elastic response in anisotropic bimaterial, Applied Mathematics and Mechanics-English Edition, 2017.2, 38(2): 231~242.

16. H.J. Chu*, M.Z. Wang. The Definition of Point Sources: Point Charge, Mass Point and Heat Point Source-A Generalized Sternberg Definition of Concentrated Forces, Journal of Applied Mechanics-Transactions of the ASME, 2014.1, 81(1): 1~3.

17. H.J. Chu, H.M. Wang, Y.F. Zhao, E. Pan. Dislocation and traction loads over an elliptical region in anisotropic magnetoelectroelastic bimaterials, Smart Materials and Structures, 2013, 22(12): 1~14.

18. H.J. Chu, E. Pan, J. Wang, I.J. Beyerlein. Elastic Displacement and Stress Fields Induced by a Dislocation of Polygonal Shape in an Anisotropic Elastic Half-Space, Journal of Applied Mechanics-Transactions of the ASME, 2012, 79(2): 1~9.

19. H.J. Chu, C.Z. Zhou, J. Wang, I.J. Beyerlein. Misfit strain relaxation mechanisms in core/shell nanowires, JOM, 2012, 64(10): 1258~1262.

20. H.J. Chu, E. Pan, J.J. Ramsey, J. Wang, C.X. Xue. A general perturbation method for inhomogeneities in anisotropic and piezoelectric solids with applications to quantum-dot nanostructures, International Journal of Solids and Structures, 2011, 48(5): 673~679.

21. H.J. Chu, E. Pan, J. Wang, I.J. Beyerlein. Three-dimensional elastic displacements induced by a dislocation of polygonal shape in anisotropic elastic crystals, International Journal of Solids and Structures, 2011, 48(7-8): 1164~1170.

22. H.J. Chu, J. Wang. Strain distribution in arbitrarily shaped quantum dots with nonuniform composition, Journal of Applied Physics, 2005, 98(3).

23. J. Wang, H.J. Chu. A perturbation theory for calculating strain distributions in heterogeneous and anisotropic quantum dot structures. Journal of Applied Physics, 2006, 100(5) .

24. H.J. Chu, Y. Zhang, E. Pan, Q.K. Han. Circular surface loading on a layered multiferroic half space, Smart Materials and Structures, 2011, 20(3): 1~11.

25. H.J. Chu, J.X. Wang. An approach for calculating strain distributions in arbitrarily shaped quantum dots, Chinese Physics Letters, 2005, 22(3): 667~670.

26. H.J. Chu, M.Z. Wang. A note on the limit definition of concentrated loads, Journal of Applied Mechanics-Transactions of the ASME, 2005.5, 72(3): 418~421.

27. S.W. Wu, G. Wang, Q. Wang, Y.D. Jia, J. Yi, Q.J. Zhai, J.B. Liu, B.A. Sun, H.J. Chu, J. Shen, P.K. Liaw, C.T. Liu, T.Y. Zhang. Enhancement of strength-ductility trade-off in a high-entropy alloy through a heterogeneous structure Acta Materialia, 2019, 165: 444-458.

28. L.R. Chen, X.Z. Xiao, L. Yu, H.J. Chu, H.L. Duan. Texture evolution and mechanical behaviour of irradiated face-centred cubic metals, Proceedings of the Royal Society of London - Series A: Mathematical and Physical Sciences, 2018.2.28, 474: 20170604.

29. D.K. Song, X.Z. Xiao, H.J. Chu, H.L. Duan. Mechanical properties of irradiated multi-phase polycrystalline BCCmaterials, Acta Mechanica Sinica, 2015, 31: 191~204.

30. X.Z. Xiao, H.J. Chu, H.L. Duan. Effect of grain boundary on the mechanical behaviors of irradiated metals: a review, SCIENCE CHINA Physics, Mechanics & Astronomy, 2016, 59(6): 1~11.

31. L. Yu, X.Z. Xiao, L.R. Chen, H.L. Duan, H.J. Chu. A micromechanical model for nano-metallic-multilayers with helium irradiation, International Journal of Solids and Structures, 2016.12.15, 102: 267~274

32. J.K. Chen, J. Zhu, J. Wang, M. Yuan, H.J. Chu. The properties of the Poisson's ratio of microcellular foams with low porosity: non-stationary, negative value, and singularity, Computational Materials Science, 2008, 41(3): 334~343.

33. D.K Song, X.Z. Xiao, J.M. Xue, H.J. Chu, H.L. Duan. Mechanical properties of irradiated multi-phase polycrystalline BCC materials, Acta Mechanica Sinica, 2015.4, 31(2): 191~204.

34. X. Z. Xiao, D. K. Song, H. J. Chu, J. M. Xue, H. L. Duan. Mechanical properties for irradiated face-centred cubic nanocrystalline metals, Proceedings of the Royal Society A-Mathematical Physical and Engineering Sciences, 2015.5.8, 471(2177).

35. X.Z. Xiao, D.K. Song, H.J. Chu, J.M. Xue, H.L. Duan. Mechanical behaviors of irradiated FCC polycrystals with nanotwins, International Journal of Plasticity, 2015.7.17, 74: 110~126.

36. H.W. Yang, W.L. Luan, R. Cheng, S.T. Tu, H.J. Chu. Synthesis of quantum dots via microreaction: Structure optimization for microreactor system, Journal of Nanoparticle Research, 2011, 13(8): 3335~3344.

37. Q. Han, M. Wang, H. Chu Nonsynchronous Vibrations of Rotor System with an Oil-Block inside the Rotating Drum, Advances in Vibration Engineering, 2013, 12(2): 165~178.

38.H. J. Chu, E. Pan*, J. Wang. Elastic and electric fields in quantum wire/dot nanostructures via the perturbation theory. IUTAM Symposium on Surface Effects in the Mechanics of Nanomaterials and Heterostructures, 2010, 27-35, Beijing. 2013.

39.楚海建,陈建康,王建祥.半导体量子点结构的特性及力学研究进展,力学进展, 2007, 37(4):481-495.

40.肖厦子,宋定坤,楚海建,薛建明,段慧玲.金属材料力学性能的辐照硬化效应, 力学进展, 2015, 45(1): 141-178.

41.吕陈扬韬,黄鑫龙,林成辉,楚海建. FCC辐照金属铜材料中氦泡平衡内压的分子模拟及其尺度效应,固体力学学报,2020,41(06).

42.胡晓郁,都亚鹏,楚海建.基于晶体塑性有限元研究开孔对多晶板材力学性能的影响[J]. 上海大学学报(自然科学版),doi: 10.12066/j.issn.1007-2861.2159.

43.黄鑫龙,吕陈扬韬,孙昱瑶,楚海建.钨基辐照材料中纳米氦泡诱导位错成核的分子模拟,上海大学学报(自然科学版),doi:10.12066/j.issn.1007-2861.2222.

44.胡晓郁,都亚鹏,楚海建.L型碳纤维增强复合材料连接件承载力的渐进损伤分析. 上海大学学报 2021.

45.陈建康,黄筑平,白树林,楚海建.单向应力条件下松弛时间率相关的非线性弹性本构模型, Acta Polymerica Sinica, 2003, (3): 414-419

46.许庆春; 杨开云; 楚海建.《理论力学》中国水利水电出版社,2010.


科研项目

1.主持国家自然科学基金面上项目“辐照条件下层状微纳米结构金属材料力学性能研究”.

2.主持国家自然科学基金青年基金“半导体量子点结构的力学研究”.

3.主持上海市自然科学基金“层状微纳米金属材料抗辐照力学性能研究”.

4.主持金属材料强度国家重点实验室“层状微纳米材料强韧化机理研究”.

5.主持上海市教委东方学者人才项目.

6.参研国防基础科研科学挑战专题项目“基于孔洞演化机制的材料动态损伤断裂准则”.

7.参研空客(Airbus)“Fatigue Virtual Test Simulation”.


所获荣誉

1. 2008年,扬州大学优秀青年骨干教授,

2. 2012年,江苏省“青蓝工程”优秀青年骨干教师

3. 2013年,上海市东方学者特聘教授


讲授课程

理论力学、材料力学、弹性力学、塑性力学、微细观力学

教育部长江学者特聘教授 杰青
优青

上一条:张东升

下一条:陈红勋