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陈江华

发布于:2017-06-13 星期二 00:14:31 点击数:29894

陈江华博士,湖南大学教授,教育部长江学者特聘教授,“985”首席科学家,教育部首批“黄大年式教师团队”负责人,教育部科技委材料学部委员,亚太材料科学院院士,中国材料研究学会常务理事,中国仪表材料学会副理事长,湖南省精密仪器测试学会理事长、电镜专业委员会主任、湖南省政协常委。

欢迎有抱负的博士加入我的科研团队从事博士后研究工作。

联系电话:0731-88664009


基本信息

性别:男,出生年月:1962.09,民族:汉,政治面貌:九三学社社员,籍贯:云南

最高学历:博士研究生 最高学历专业名称:材料物理

联系电话:0731-88664009     

教育背景

1979.09-1983.07,就读于中南大学,金属物理(全日制),获得学士学位 

1983.09-1986.06,就读于中国科学院金属研究所,金属物理(全日制),获得硕士学位 

1994.09-1997.06,就读于比利时Antwerp大学,材料物理(全日制),获得博士学位        

工作履历

1986.06-1994.08,四川大学,讲师,固体(材料)物理专业

1997.07-1998.11,比利时Antwerp大学物理系电镜实验室,博士后研究员,材料物理

1998.12-2000.09,德国Juelich国家研究中电镜实验室,德国国家自然科学基金GFD博士后研究员,材料物理

2000.08-2003.08,荷兰Delft理工大学国家高分辨电镜中心,核心成员,材料物理

2003.08-2007.01,荷兰Delft理工大学国家高分辨电镜中心,永久研究员,材料物理

2005.10-2007.01,中国科学院物理研究所,特聘研究员,博导,材料物理

2006.11-至今,湖南大学,教授,博导,材料物理

学术兼职

中国材料研究学会常务理事、中国仪表功能材料学会副理事长、湖南省精密仪器学会理事长、中国电子显微镜学会常务理事、《金属学报》(英文版)编委、《有色金属学报》(英文版)编委、《稀有金属材料与工程》编委、Advanced Structural and Chemical Imaging编委、Materials Today Nano编委、教育部科技委材料学部委员。

研究领域

陈江华教授在电子显微学和材料科学多个领域从事过研究工作,有较丰富的国内外学术活动经验,在电子显微学及应用和铝合金研究方面做出过较好的研究成果。在Science,Nature Materials,Acta Materialia等二十多种著名期刊发表论文。特别是在轿车车身用铝合金板材的研究方面取得突出成果;在大分子测量用纳米孔器件制造方面有重要创新;关于透射电镜理论和方法的工作被国际综述文章和著名教科书引用。陈江华教授领导的研究团队拥有世界先进的电镜设备与技术,包括三台透射和两台扫描电镜,可以实现纳米电子衍射、波函数重构和高分辨HAADF STEM等最先进的结构分析技术,目前承担着自然科学基金和国防基础等国家科研任务。

具体研究方向明细:

(1)研究铝、铜、钛合金和钢铁材料组织结构与性能和工艺的关系;

(2)利用和发展超高分辨电子显微分析方法,对国家重点发展的高性能材料的相结构和成分、形貌、取向、分布等开展系统和深入的定量研究,通过上述基础问题的研究,促进国家材料发展中重大关键科学问题的解决;

(3)现代电子显微学新方法和理论基础的研究,发展具有特色的波函数重构技术;

研究概况

近年来陈江华教授已完成或正在承担科研项目22项,其中主持纵向科研项目共计13项,主持横向科研项目共计9项,经费累计3000余万元。

纵向项目

1.2015-01到2019-12,透射电子显微镜定量化原子成像技术及分析仪器平台系统,国家级,国家自然科学基金委重大仪器专项基金,项目经费575万;

2.2019-01到2023-12,典型航空铝合金三维动态组织结构的原子分辨率电镜表征研究,国家级,国家自然科学基金委重点项目,项目经费300万元;

3.2011-01到2013-12,高性能轻质合金中多相复杂体系原子尺度表征与材料强韧化调控(二期),国家级,科技部“973”计划,项目经费263万;

4.2016-07到2020-06,高性能铝合金大规格板带材制造与应用技术,国家级,国家重点研发计划,项目经费84万元; 

5.2015-01到2018-12,Al-Zn-Mg-(Cu)合金腐蚀与强化相微结构的关系研究,国家级,国家自然科学基金委面上项目,项目经费84万;

6.2013-01到2015-12,AlCuMg合金中纳米析出相的结构稳定性及其演化规律研究,省部级,教育部博士点基金,项目经费12万;

7.2011-04到2012-07,靶材XXXX,国家级,主管部门科技项目,项目经费30万;

8.2011-11到2012-12,提高场发射透射电镜二维和三维成像分辨率的方法研究,省部级,湖南省科技厅仪器专项基金,项目经费25万;

9.2012-01到2015-12,AlMgSiCu合金中复杂共生相的结构演变及其与性能的关系研究,国家级,国家自然科学基金委面上项目,项目经费70万;

10.2014-06到2016-06,研究生教育实现“知识创新”的培养机制研究,省部级,湖南省教育厅学位与研究生教育教学改革研究项目,项目经费6万;

11.2009-01到2010-12,湖南省高校创新团队建设经费:纳米结构材料物理与工程,省部级,湖南省教育厅,项目经费10万;

12.2008-01到2011-12,教育部长江学者奖励计划,国家级,教育部,经费200万;

13.2008-01到2010-12,铝合金中硬化析出相的先进电子显微学,国家级,国家自然科学基金委面上项目,项目经费30万。

横向项目

1.2008-12到2015-12,南车青岛四方机车车辆股份有限公司重大横向课题,高速列车铝合金车体可靠性与国产化研究,704.8万元;

2.2015-11到2017-12,精密热处理工艺对铝锂合金组织特性影响研究,中国航空工业集团公司北京航空材料研究院,21.06万元;

3.2016-05到2017-12,铝锂合金微观组织演变规律研究,中国航空工业集团公司北京航空材料研究院,15万元;

4.2016-01到2017-01,铸棒内部孔洞缺陷问题研究(I),亚太轻合金(南通)科技有限公司,15万元;

5.2017-01到2017-12,A356铝合金非平衡凝固组织演化规律研究,西北工业大学,9.5万元;

6.2017-03到2017-12,Fe基纳米晶材料双相双峰的结构表征,西北工业大学,7万元;

7.2017-06到2017-12,Ni80Cu20合金再结晶行为研究,西北工业大学,3.5万元;

8.2011-06-01到2012-01-31,先进碳材料显微结构研究,中南大学,10万元;

9.2011-09-01到2012-08-31,金属材料中析出相的微观结构分析,中南大学,3万元。


学术成果

近年来,陈江华教授发表学术论文100余篇,授权发明专利11项:

发表论文明细

1) J.H. Chen*,E.Costan, M.A.van Huis, Q.Xu and H.W.Zandbergen. Atomic Pillar-Based Nanoprecipitates Strengthen AlMgSi Alloys. Science, 2006, 312(5772): 416–419.

2) A.J. Storm, J.H. Chen, X.S. Ling, H.W. Zandbergen and C. Dekker. Fabrication of solid-state nanopores with single nanometer precision. Nature materials, 2003, 2: 537-541.

3) J.H. Chen, Van Dyck, D. Accurate multislice theory for elastic electron scattering in transmission electron microscopy. Ultramicroscopy, 1997, 70(1-2): 29-44.

4) J.H. Chen*, H.W. Zandbergen and D.Van Dyck. Atomic imaging in aberration-corrected high-resolution transmission electron microscopy. Ultramicroscopy, 2004, 98(2-4): 81-97.

5) W.Q. Ming, J.H. Chen*. Validities of three multislice algorithms for quantitative low-energy transmission electron microscopy. Ultramicroscopy, 2013, 134: 135-143.

6) C.Y. Tang, J.H. Chen*, H.W. Zandbergen and F.H.Li. Image deconvolution in spherical aberration-corrected field-emission HRTEM images. Ultramicroscopy, 2006, 106(6): 539-546.

7) J.H. Chen, D. Van Dyck, M. Op de Beeck and J. Van Landuyt. Computational comparisons between the conventional multislice method and the third-order multislice method for calculating high-energy electron diffraction and imaging. Ultramicroscopy, 1997, 69(4): 219-240.

8) S. Van Aert, J.H. Chen, D. VanDyck. Linear versus non-linear structural information limit in high-resolution transmission electron microscopy. Ultramicroscopy, 2010, 110(11), 1404–1410.

9) S. Van Aert, A. J. den Dekker, A. van den Bos, D. Van Dyck and J. H. Chen. Maximum likelihood estimation of structure parameters from high resolution electron microscopy images. Part II: a practical example. Ultramicroscopy, 2005, 104(2): 107-125.

10) T. Hu, J.H. Chen*, J.Z. Liu, Z.R. Liu, C.L. Wu. The crystallographic and morphological evolution of the strengthening precipitates in Cu–Ni–Si alloys. Acta Materialia, 2013, 61: 1210–1219.

11) S.B. Wang, J.H. Chen*, M.J. Yin, Z.R. Liu, D.W. Yuan, J.Z. Liu, C.H. Liu, C.L. Wu. Double-atomic-wall-based dynamic precipitates of the early-stage S-phase in AlCuMg alloys. Acta Materialia, 2012, 60: 6573-6580.

12) Z.R. Liu, J.H. Chen*, S.B. Wang, D.W. Ding, M.J. Yin, C.L. Wu. The structure and the properties of S-phase in Al-Cu-Mg alloys. Acta Materialia, 2011, 59: 7396-7405.

13) W.L. Chen, C.L. Wu, Z.R. Liu, S. Ni, Y. Hong, Y. Zhang, J.H. Chen*. Phase transformations in the nitrocarburizing surface of carbon steels revisited by microstructure and property characterizations. Acta Materialia, 2013, 61: 3963–3972.

14) M. A. van Huis, J.H. Chen, H. W. Zandbergen and M. H. F. Sluiter. Stability and phase transformations of late precipitate phases in Mg-Si-Al alloys. Acta Materialia, 2006, 54:2945-2955.

15) M. A. van Huis, J.H. Chen, M. H. F. Sluiter and H. W. Zandbergen. Phase stability and structural features of matrix-embedded hardening precipitates in Al-Mg-Si alloys in the early stages of evolution. Acta Materialia, 2007, 55(6): 2183-2199.

16) C.H. Liu, Y.X. Lai , J.H. Chen*, G.H. Tao , L.M. Liu , P.P. Ma, C.L. Wu.Natural-aging-induced reversal of the precipitation pathways in an Al–Mg–Si alloy. Scripta Materialia, 2016, 115: 150-154.

17) C.H. Liu, J.H. Chen*, C. Li, C.L. Wu, D.Z. Li, Y.Y. Li. Multiple silicon nanotwins formed on the eutectic silicon particles in Al-Si alloys. Scripta Materialia, 2011, 64: 339-342.

18) J.Z. Liu, J.H. Chen*, X.B. Yang, S. Ren, C.L. Wu, H.Y. Xu and J Zou. Revisiting the precipitation sequence in Al–Zn–Mg-based alloys by high-resolution transmission electron microscopy. Scripta Materialia, 2010, 63: 1061–1064.

19) Q.H. Fang, J.H. Chen, P.H. Wen and Y.W. Liu. Misfit dislocations in an annular strained film grown on a cylindrical nanopore surface. Scripta Materialia, 2009, 60: 395–398.

20) C.H. Liu, J. Chen, Y.X. Lai, D.H. Zhu, Y. Gu, J.H. Chen*. Enhancing electrical conductivity and strength in Al alloys by modification of conventional thermo-mechanical process. Materials and Design, 2015, 87: 1-5.

21) C.H. Liu, X.L. Li, S.H. Wang, J.H. Chen*, Q. Teng, J. Chen. A tuning nano-precipitation approach for achieving enhanced strength and good ductility in Al alloys. Materials and Design, 2014, 54: 144-148.

22) P. Xie, C.L. Wu, Y. Chen , J.H. Chen, X.B. Yang, S.Y. Duan, N. Yan, X.A. Zhang, J.Y. Fang. A nanotwinned surface layer generated by high strain-rate deformation in a TRIP steel. Materials and Design, 2015, 80: 144-151

23) J.Z. Liu, J.H. Chen*, Z. R. Liu, C. L. Wu. Fine precipitation scenarios of AlZnMg(Cu) alloys revealed by advanced atomic-resolution electron microscopy study Part II: Fine precipitation scenarios in AlZnMg(Cu) alloys. Materials Characterization, 2015, 99: 142–149.

24) J.Z. Liu, J.H. Chen*, D. W. Yuan, C. L. Wu, J. Zhu, Z. Y. Cheng. Fine precipitation scenarios of AlZnMg(Cu) alloys revealed by advanced atomic-resolution electron microscopy study Part I: Structure determination of the precipitates in AlZnMg(Cu) alloys. Materials Characterization, 2015, 99: 277-286.

25) X.Q. Zhao, M.J. Shi, J.H. Chen*, S. B. Wang, C.H. Liu, C.L. Wu. A facile electron microscopy method for measuring precipitate volume fractions in AlCuMg alloys. Materials Characterization, 2012, 69: 31-36.

26) X.B. Yang, J.H. Chen, J.Z. Liu*, P. Liu, F. Qin, Y.L. Cheng, C.L. Wu. Spherical constituent particles formed by a multistage solution treatment in Al-Zn-Mg-Cu alloys. Material Characterization, 2013, 83: 79-88.

27) Nengping Jin, Hui Zhang, Yi Han, Wenxiang Wu, Jianghua Chen. Hot deformation behavior of 7150 aluminum alloy during compression at elevated temperature. Materials Characterization, 2009, 60(6): 530-536.

28) J.H. Chen, Y. M. Wang, X. J. Luo, L. Y. Ding and X. L. Cheng. An improved multislice method for calculating high-energy electron diffraction and imaging under conditions of inclined illumination. Philosophical Magazine Letters, 1995, 71(1): 33-37.

29) J.H. Chen; Bernaerts, D.; Jin Won Seo; Van Tendeloo, G. Voidites in polycrystalline natural diamond. Philosophical Magazine Letters, 1998, 77(3): 135-140.

30) J.H. Chen, G. Van Tendeloo. Microstructure of tough polycrystalline natural diamond. Journal of Electron Microscopy, 1999, 48(2), 121-129.

31) J.H. Chen, C.L. Jia, K. Urban and C.L. Chen. Unusual lattice distortion in a Ba0.5Sr0.5TiO3 thin film on a LaAlO3 substrate. Applied Physics Letters, 2002, 81(7): 1291-1293.

32) J.H. Chen, D. Van Dyck and M. Op de Beeck. Multislice Method for Large Beam Tilt with Application to HOLZ Effects in Triclinic. Acta Crystallographica, 1997, 53(53): 576-589.

33) J.H. Chen, M. Op de Beeck, and D. Van Dyck. Can the Multislice Method Be Used To Calculate HOLZ Reflections in High-Energy Electron Diffraction and Imaging? Microscopy Microanalysis Microstructures, 2003, 5(2): 197-201.

34) J.H. Chen, D. Van Dyck, M. Op de Beeck and J. Van Landuyt.Modification of the multislice method for calculating coherent STEM images. Physica Status Solidi (a), 1995, 150(1): 13-22.

35) J.H. Chen, Y. M. Wang and Q. B. Yang. Simulation and reconstruction of high-resolution electron microscopy images, A chapter in the book Progress in Transmission Electron Microscopy, ed. Ye H. Q. and Wang Y. M. (Science publish, Beijing 2003) (ISBN 7-03-011895-2), 278-298.

36) C.Y. Cai, J.H. Chen*. An accurate multislice method for low-energy transmission electron microscopy. Micron, 2012, 43:374-379.

37) F. Lin, Y. Liu, X. Y. Zhong, J.H. Chen*. An improved image alignment procedure for high-resolution transmission electron microscopy. Micron, 2010, 41(4): 367-372.

38) X.B. Yang, J.H. Chen*, J.Z. Liu, F. Qin, J. Xie, C.L. Wu. A high-strength AlZnMg alloy hardened by the T-phase precipitates. Journal of Alloys and Compounds, 2014, 610: 69-73.

39) L.H. Liu, J.H. Chen*, T.W. Fan, Z.R. Liu, Y. Zhang, D.W. Yuan. The possibilities to lower the stacking fault energies of aluminum materials investigated by first-principles energy calculations. Computational Materials Science, 2015, 108: 136-146.

40) C. L. Wu, X. Z. Liao, J.H. Chen*. The formation of symmetric SiC bi-nanowires with a Y-shaped junction. Nanotechnology, 2010, 21(40): 405303-405310.

41) Y. Ding, J.H. Chen*, J.M. He, M. Liu, C.R. Ma, C.L. Chen. Interface structures and strain relaxation mechanisms of ferroelectric BaTiO3/SrTiO3 multilayers on (001) MgO substrates. Journal of Crystal Growth, 2013, 383: 19-24.

42) S.H. Wang, C.H. Liu, J.H. Chen*, X.L. Li, D.H. Zhu, G. H. Tao. Hierarchical nanostructures strengthen Al-Mg-Si alloys processed by deformation and aging. Materials Science & Engineering A, 2013, 585: 233-242.

43) Houwen Chen, Jianghua Chen*, Rong Wang. A structural study of the Fe/ZSM-5 catalyst by through-focus exit-wavefunction reconstruction in HRTEM. Microporous and Mesoporous Materials, 2009, 120: 472-476.

44) Z. Gao, J.H. Chen*, S.Y. Duan, X.B. Yang, C.L. Wu. The complex precipitation sequences of AlCuLiMg alloys characterized in relation with thermal-ageing processes. Acta Metallurgica Sinica (English Letters), 2016, 29(1): 94-103.

45) M.J. Yin, J.H. Chen*, S. B. Wang, Z.R. Liu, L.M. Cha, S.Y. Duan, C.L. Wu. Temperature-dependent growth of the S-phase precipitates in relation with the Guinier-Preston-Bagaryatsky(GPB) zones in AlCuMg alloys. Transactions of Nonferrous Metals Society of China, 2016, 26(1): 1-11.

46) J.Z. Liu, S.S. Yang, S.B. Wang, J.H. Chen, C.L. Wu. The influence of Cu/Mg atomic ratios on precipitation scenarios and mechanical properties of Al-Cu-Mg alloys. Journal of Alloys and Compounds. 2014, 613: 139-142.

47) Z. Gao, J.Z. Liu, J.H. Chen, S.Y. Duan, Z.R. Liu, W.Q. Ming, C.L. Wu. Formation mechanism of precipitate T1 in AlCuLi alloys. Journal of Alloys and Compounds, 2014, 624: 22-26.

48) C. Li, J. H. Chen, X. Wu, S. van der Zwaag. Effect of heat treatment on microstructure and properties with compression of metastable β-titanium alloy. Metal Science and Heat Treatment, 2014, 56: 245-252.

49) C. Li, J.H. Chen, X. Wu, Zwaag van der S, A comparative study of the microstructure and mechanical properties of α+β titanium alloys, Metal Science and Heat Treatment, 2014, 56: 374-380.

50) G.H. Tao, C.H. Liu, J.H. Chen, Y.X. Lai, P.P. Ma, L.M. Liu. The influence of Mg/Si ratio on the negative natural aging effect in Al-Mg-Si-Cu alloys. Materials Science & Engineering A, 2015, 642: 241-248.

51) L. Liu, J. H. Chen, S.B. Wang, C.H. Liu, S.S. Yang, C.L. Wu. The effect of Si on precipitation in Al–Cu–Mg alloy with a high Cu/Mg ratio. Materials Science and Engineering: A, 2014, 606: 187-195.

52) C. Li, J.H. Chen, X. Wu, S vander Zwaag. Effect of strain rate on stress-induced martensitic formation and the compressive properties of Ti-V-(Cr,Fe)-Al alloys. Materials Science & Engineering A, 2013, 573: 111-118.

53) H.C. Long, J.H. Chen, C.H. Liu, D.Z. Li, Y.Y. Li. The negative effect of solution treatment on the age hardening of A356 alloy. Materials Science & Engineering A, 2013, 566: 112-118.

54) C. Li, X. Wu, J.H. Chen, S. van der Zwaag. Influence of α morphology and volume fraction on the stress-induced martensitic transformation in Ti–10V–2Fe–3Al. Materials Science and Engineering A, 2011, 528: 5854-5860.

55) F.L. Jiang, H. Zhang, L.X. Li, J.H. Chen, The kinetics of dynamic and static softening during multistage hot deformation of 7150 aluminum alloy, Materials Science and Engineering A, 2012, 552: 269–275.

56) Xudong Huang, Hui Zhang, Yi Han, Wenxiang Wu, Jiang hua Chen. Hot deformation behavior of 2026 aluminum alloy during compression at elevated temperature. Materials Science and Engineering A, 2010, 527: 485-490.

57) X.H. Chen, X.L. Wu, J.G. Zou, J..L. Liu, J.H. Chen, Dispersion of functionalized multi-walled carbon nanotubes in multi-walled carbon nanotubes/liquid crystal nanocomposites and their thermal properties, Materials Science and Engineering B, 2011, 176: 425–430.

58) X.H. Chen, J.F. Wang, M. Lin, W.B. Zhong, T. Feng, X.H. Chen, J.H. Chen, F. Xue.Mechanical and thermal properties of epoxy nanocomposites reinforced with amino-functionalized multi-walled carbon nanotubes. Materials Science and Engineering A, 2008, 492 : 236–242.

59) W.L. Chen, C.L. Wu, J.H. Chen, A.G. He. An electron microscopy study of the vein-like grain boundary microstructure in nitrocarburized low carbon steels. Journal of materials science and technology, 2013, 29: 669-672.

60) C. Li, J.H. Chen, X. Wu, W. Wang, S. van der Zwaag. Tuning the stress induced martensitic formation in titanium alloys by alloy design. Journal of Materials Science, 2012, 47: 4093-4100.

61) X.Z. Xiong, C.J. Tu, D. Chen, J.Q. Zhang, J.H. Chen. Arc erosion wear characteristics and mechanisms of pure carbon strip against copper under arcing conditions. Tribology Letters, 2014, 53: 293-301.

62)A.J. Storm, J.H. Chen, H. W. Zandbergen, and C. Dekker. Translocation of double-strand DNA through a silicon oxide nanopore. Physical Review E, 2005, 71(5): 122-133.

63) M. A. van Huis,M. H. F. Sluiter, J.H. Chen, and H. W. Zandbergen. Concurrent substitutional and displacive phase transformations in Al-Mg-Si nanoclusters. Physical Review B, 2007,76(17): 174113(1-6).

64) A.J. Storm, C. Storm, J.H. Chen, H.W. Zandbergen, J. F. Joanny and C. Dekker. Fast DNA translocation through a solid-state nanopore. Nano Letters, 2005, 5(7): 1193-1197.

65) A.J. Storm, J.H. Chen, X.S. Ling, H.W. Zandbergen, and C. Dekker. Electron-beam-induced deformations of SiO2 nanostructures. Journal of Applied Physics, 2005, 98: 014307(1-8).

66) D.W. Yuan, Z.R. Liu, J.H. Chen. Catalytic activitay of Pd ensembles over Au(111) surface for CO oxidation: A first-principles study. J. Chem. Phys., 2011, 134:054704-054711.

67) X.L. Wu, X.H. Chen, J..F. Wang, J.L. Liu, Z.F. Fan, X.H. Chen, J.H. Chen, Functionalization of Multiwalled Carbon Nanotubes with Thermotropic Liquid-Crystalline Polymer and Thermal Properties of Composites. Industrial & Engineering Chemistry Research, 2011, 50(2): 891–897.

68) X.B. Yang, J.Z. Liu, J.H. Chen, C.Y. Wan, L. Fang, P. Liu, C.L. Wu. Relationship between the strengthening effect and the morphology of precipitates in Al-7.4Zn-1.7Mg-2.0Cu (wt. %) alloy. Acta Metallurgica Sinica (English Letters), 2014, 27: 1070-1077.

69) D. Van Dyck and J.H. Chen. Towards an exit wave in closed analytical form. Acta Crystallographica Section A, 1999, 55: 212-215.

70) D. Van Dyck and J.H. Chen. A simple theory for dynamical electron diffraction in crystals. Solid state communication, 1999, 109(8): 501-505.

71) Y.M. Wang and J.H. Chen. A convergence criterion for the real-space image simulation method. Philosophical Magazine A, 1988, 58(5): 817-824.

72) Y.M. Wang, J.H. Chen and T. B. Hu. A New Development in The Real-Space High-Resolution Electron Microscope Simulation Method. Acta Physica Sinica, 1989, 38:1521-1526.

73) Y.M. Wang, T. B. Hu, J.H. Chen and X. B. Zeng. A New Method for Simulating High-Resolution Electron Microscope Images from Non-periodic Objects. Acta Physica Sinica, 1990, 39:1407-1412.

74) T. J. Nijdam, L. P. H. Jeurgens, J.H. Chen and W. G. Sloof. Controlled oxidation of NiCoCrAlY bond coatings at high and low partial oxygen pressures. Oxidation of Metals, 2005, 64: 355-377.

75) Premendra, J. H. Chen, F. D. Tichelaar, H. Terryn, J. H. W. de Wit, and L. Katgerman. Optical and Microscopic study of the evolution of surface layer on recycled aluminium along the rolling mills. Surface and Coatings Technology, 2007, 201(8): 4561-4570.

76) P. Klaver and J.H. Chen. Density Functional Theory study of alloy element interstitials in Al. Journal of Computer-Aided Materials Design, 2005, 10(3): 155-162.

77) Q.H. Fang, Y.W. Liu, and J.H. Chen. Misfit dislocation dipoles and critical parameters of buried strained nanoscale inhomogeneity. Applied Physics Letters, 2008, 92(92): 121923-121923-3.

78) Y.X. Chen, Q.L. Tang, J.H. Chen. Dendritic and epitaxial growths of ZnO particle–rod and rod–rod nanostructures with quasi-one-dimensional and two-dimensional configurations. Materials. Letters, 2008, 62(25): 4115-4117.

79) Y.X. Chen, X.Q Zhao, B Sha, J.H Chen. Stacking fault directed growth of thin ZnO nanobelt. Materials. Letters., 2008, 62: 2369-2371.

80) Q.L. Tang, Y.X. Chen, J.H. Chen, J. Li, Y. Xu, D. Wu, Y.H. Sun. Drug delivery from hydrophobic-modified mesoporous silicas: Control via modification level and site-selective modification. Journal of Solid State Chemistry, 2010: 183(1): 76-83.

81) Y.X. Chen, B. Qu, Y.A. Barnakov, Q.L. Tang, J.H. Chen. Microstructure studies of ZnO nanoneedles, Journal of Materials Science Materials in Electronics, 2009, 20(20): 328-333.

82) X.H. Chen, J.F. Wang, W.B. Zhong, T. Feng, X.G. Yang, J.H. Chen. A Scalable Route to Highly Functionalized Multi-Walled Carbon Nanotubes on a Large Scale. Macromolecular Chemistry & Physics, 2008, 209(8): 846-853.

83) H. Zhang X.D. Huang, J.H. Chen, Microstructural evolution of 2026 aluminum alloy during hot compression and subsequent heat treatment. Transactions of Nonferrous Metals Society of China, 2011, 21: 955-961.

84) H. Zhang,N.P. Jin, J.H. Chen, Hot deformation behavior of Al-Zn-Mg-Cu-Zr aluminum alloys during compression at elevated temperature, Transactions of Nonferrous Metals Society of China, 2011, 21: 437-442.

85) B. Zou, Z.Q. Chen, C. H. Liu and J.H. Chen. Vacancy–Mg complexes and their evolution in early stages of aging of Al–Mg based alloys. Applied Surface Science, 2014, 298(15): 50-55.

86) B. Zou, Z.Q. Chen, C. H. Liu and J.H. Chen. Microstructure evolution of heavily deformed AA5083 Al–M g alloy studied by positron annihilation spectroscopy. Applied Surface Science, 2014, 296(296): 154-157.

87)李祥亮, 陈江华*,刘春辉, 冯佳妮, 王时豪. T6和T78时效工艺对Al-Mg-Si-Cu合金显微结构和性能的影响. 金属学报, 49(2013): 243-250.

88)顾媛,陈江华,刘春辉,朱东晖,刘力梅,陶冠辉.预变形对Al-Mg-Si-Cu合金时效硬化和显微结构的影响.金属学报, 11(2015): 1400-1406.

89)陈江华*,刘春辉. Al-Mg-Si-(Cu) 合金纳米析出相结构演变. 中国有色金属学报,21(2011):1-9.

90)黄昌军, 刘春辉, 陈江华*, 冯佳妮,桑益, 廖元飞, 陈刚. Al-Mg-Si-Cu合金时效状态对疲劳过程及断裂特征的影响. 中国有色金属学报, 23(2013): 35-43.

91)朱东晖,陈江华,刘春辉,郑雄,赖玉香,陶冠辉,顾媛.焊后热处理对Al-Mg-Si-Cu合金激光焊接接头力学性能的影响.中国有色金属学报, 9(2015): 2342-2349.

92)尹美杰,陈江华,刘春辉.中断时效处理对AA2024铝合金力学性能和显微结构的影响.中国有色金属学报, 12(2015): 3271-3281.

93)朱东晖, 陈江华, 刘春辉, 黄昌军, 王时豪, 陈敬, 顾媛. Al-Mg-Si与Al-Zn-Mg合金异质焊接接头力学性能和微观结构的关系, 中国有色金属学报, 24(2014): 293-301.

 

授权发明专利明细

1)陈江华, 余雄伟, 李佳源, 伍翠兰. 改善大尺寸7系铝合金淬火后强度不均匀性的时效工艺. 中国, 发明专利: ZL201810071594.3, 2020.3.10.

2)陈江华, 明文全, 段石云, 伍翠兰. 一种测量透射电子显微镜照明电子束偏离光轴的大小和方向的方法. 中国, 发明专利: ZL201610817787.X, 2019.03.26.

3)陈江华, 饶栋, 杨修波, 伍翠兰, 余雄伟. 一种提高Al-Zn-Mg合金强度的时效热处理工艺. 中国, 发明专利: ZL 201610421016.9, 2017.8.29.

4)伍翠兰,王津,洪悦,陈兴岩,陈江华. 一种提高氮碳共渗强化层表面致密性的复合热处理工艺. 中国, 发明专利: ZL 201510102630.4, 2017.01.11.

5)陈江华, 刘吉梓, 杨修波, 谢娟, 秦芳. 一种高强、轻质、耐蚀、可焊的Al-Zn-Mg合金及制备方法. 中国, 发明专利: ZL 201310462384.4, 2015.08.19.

6)陈江华, 刘春辉, 李祥亮, 王时豪, 伍翠兰. 提高变形铝合金强度并保持其塑性的热加工方法. 中国,发明专利: ZL 201310007350.6, 2015.03.04.

7)陈江华, 刘春辉, 刘吉梓, 伍翠兰. 提高6XXX系铝合金薄板加工成形性与烘烤硬化性能的热处理方法. 中国,发明专利: ZL 20091 0043311.5, 2010.09.01.

8)陈江华, 刘春辉, 冯佳妮, 伍翠兰. 一种车身用铝合金板材. 中国, 发明专利: ZL 201210250426.3, 2013.11.06,

9)伍翠兰, 陈汪林, 李子青, 陈江华, 何爱贵. 提高钢材料工件氮碳共渗强化层性能的热处理工艺. 中国, 发明专利: ZL 20111002697.9, 2014.12.17.

10)张辉, 陈江华, 傅定发. 一种测定大尺寸铝合金淬透性的试验方法. 中国, 发明专利: ZL 201010300827.6, 2011.08.17.

11)高文理, 苏海, 张辉, 曾佩兰, 陈江华. 一种制备高性能陶瓷颗粒增强金属基复合材料的方法. 中国, 发明专利: ZL 200910310944.8, 2012.03.21.

奖励与荣誉

1.在轿车车身用铝合金板材的研究方面取得重要成果,研究成果发表于Science,美国《Chemical and Engineering News》,英国《Materials Today》和荷兰的《Delta》报等科技新闻报导了他主导的这项研究工作;

2.关于电子显微学理论和方法的工作被国际著名教科书和综述文章重点引用; 

3.与分子物理学家合作,发明了一种用透射电镜精确制作纳米孔器件的有效方法,用于大分子测量; 

4.发现了SrBaTiO3薄膜中奇异的晶格变形现象; 

5.发现了天然多晶金刚石(Carbonado)中畸形的voidites及其对材料微结构的影响; 

6. 1997年获得比利时Antwerp大学优秀博士学位; 

7.   2006年获得美国加州郭可信教育基金会2006年度“郭可信杰出科学家”奖(两年一次,一次一人)和论文SCI引用1500余次; 

8.   2008年获教育部长江学者奖励计划,受聘“长江学者特聘教授”; 

9.   2010年入选国家特殊人才、湖南省特殊人才; 

10.  2010年获得“中国侨界贡献奖(创新人才)”; 

11.  2011年获得中国侨联特聘专家 ;

12.  2016年获全国优秀科技工作者;

13.  2017年获首批全国高校黄大年式教师团队负责人称号。