金属材料微观结构的表征测量及与性能和工艺的关系

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

2.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.

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

4.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.

5.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.

6.S.Y. Duan, C.L. Wu, Z. Gao, L.M. Cha, T.W. Fan,J.H. Chen*. Interfacial structure evolution of the growing composite precipitates in Al-Cu-Li alloys.Acta Materialia, 129(2017):352-360.

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

8.M. A. van Huis,J.H. Chen, M. H. F. Sluiter, 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.

9.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.

10.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.

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

12. X. B. Yang,J. H. Chen*, G. H. Zhang, L. P. Huang, T. W. Fan, Y. Ding, X. W. Yu. A transmission electron microscopy study of microscopic causes for localized-corrosion morphology variations in the AA7055 Al alloy.Journal of Materials Science & Technology, 2018, In press.

13. S. B. Wang, Z. R. Liu, S. L. Xia, J. Key,J. H. Chen*. Tetragonal-prism-like Guinier–Preston–Bagaryatsky zones in an AlCuMg alloy.Materials Characterization, 132 (2017): 139-144.

14.Y.X. Lai, B.C. Jiang, C.H. Liu, Z.K. Chen, C.L. Wu,J.H. Chen*. Low-alloy-correlated reversal of the precipitation sequence in Al-Mg-Si alloys.Journal of Alloys & Compounds, 701(2017):94-98.

15.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.

16.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.

17.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.

18.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.

19.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.

20.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.

21.S.Y. Duan, Z. Le, Z.K. Chen, Z. Gao,J.H. Chen*, W.Q. Ming, S.Y. Li, C.L. Wu, N. Yan. Li-atoms-induced structure changes of Guinier-Preston-Bagaryatsky zones in AlCuLiMg alloys.Materials Characterization, 121(2016):207-212.

22.N.P. Jin, H. Zhang, Y. Han, W.X. Wu,J.H. Chen. Hot deformation behavior of 7150 aluminum alloy during compression at elevated temperature.Materials Characterization, 2009, 60(6): 530-536.

23.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.

24.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.

25.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.

26.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.

27. P. Xie, M. Han, C.L. Wu, Y.Q. Yin, K. Zhu, R.H. Shen,J.H. Chen. A high-performance TRIP steel enhanced by ultrafine grains & hardening precipitates.MaterialsandDesign, 2017, 127: 1-7.

28.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.

29.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.

30.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.

31.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.

32.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.

33.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.

34. Y. Hong, C.L. Wu, L. Tian, N. Li, Q. Xu,J.H. Chen. Microstructure and property evolution of Fe-N ferrite undergoing early-stages of precipitation.Materials Science & Engineering A, 2017, 696: 198-207.

35.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.

36.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.

37.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.

38.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.

39.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.

40.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.

41.X. D. Huang, H. Zhang, Y. Han, W. X. Wu,J. H. Chen. Hot deformation behavior of 2026 aluminum alloy during compression at elevated temperature.Materials Science and Engineering A, 2010, 527: 485-490.

42.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.

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

44.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.

45.Premendra,J.H. Chen, F. D. Tichelaar, H. Terryn, J. H. W. de Wit, 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.

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

47.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.

48.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.

49.B. Zou, Z.Q. Chen, C. H. Liu,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.

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

51.P.P. Ma, C.H. Liu, C.L. Wu, L.M. Liu,J.H. Chen. Mechanical properties enhanced by deformation–modified precipitation of θ'-phase approximants in an Al-Cu alloy.Materials Science & Engineering A, Accepted.

52.C.L. Wu, Y. Hong, W.L. Chen,J.H. Chen. M. Yuan, X.Z. Liao. A double strengthened surface layer fabricated by nitro-chromizing on carbon steel.Surface & Coatings Technology, 298(2016):83-92.

53.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, 2013, 49: 243-250.

54.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, 2015, 11: 1400-1406.

55.陈燕,伍翠兰*,谢盼,陈汪林,肖辉,陈江华.机械磨擦制备的Fe-20Mn-3Al-3Si钢表面相变强化层.金属学报, 2014, 50: 423-430.

56.章国辉,杨修波,黄磊萍,陈江华*.人工时效7055铝合金晶间腐蚀形貌与微观机理的关系.稀有金属材料与工程, 2017, In press.

57.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，2011, 21:1-9.

58.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, 2013, 23: 35-43.

59.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, 2014, 24: 293-301.

60.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, 2015, 9: 2342-2349.

61.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, 2015, 12: 3271-3281.

62.谢娟,孟立春,陈江华*,杨修波,刘吉梓,刘春辉,张泽.Al-Zn-Mg-Cu合金的局部腐蚀行为与Zn、Mg含量的关系.中国有色金属学报, 2017, 12.

63.杨淑晟,刘吉梓,王双宝,夏申琳,刘路,陈江华.不同商用热处理工艺对Al-5.10Cu-0.65Mg (wt.%)合金性能影响及其强化机理的研究.中南大学学报, 2015, 46(10): 3594-3602.

64.刘路,陈江华*,夏申琳,杨淑晟,王双宝.V元素对2519铝合金组织与力学性能的影响.材料热处理学报, 2014, 35: 78-83.

65.王双宝,伍翠兰,吾之英,陈汪林,陈江华. T92钢管在650℃下蠕变断裂后的显微组织研究.动力工程学报, 2010, 4: 275-280.

66.王双宝,伍翠兰,元敏,杨浩,陈江华. T92锅炉钢649℃长期时效的微观组织研究.南京大学学报(自然科学版), 2009, 2: 269-274.

67.孟立春,刘春辉,赖玉香,刘力梅,陈江华*. 6N01-7N01铝合金T型焊接接头的微观组织与性能的研究.湖南大学学报（自科版）, 44 (2017): 20-26.

68.陈江华*,赵甜甜,余雄伟,杨修波,高珍,伍翠兰,饶栋.预变形对7N01铝合金力学性能及显微结构的影响.湖南大学学报（自科版）, 6 (2017): 12-18.

69.秦芳,陈江华,孟立春,杨修波,刘聪,刘春辉,刘吉梓. Al-Zn-Mg合金焊接接头力学性能与微观组织演变的关系.功能材料, 47 (2016): 237-242.

70.陈敬,陈江华,刘春辉,赖玉香,顾媛.通过形变时效工艺同时提高Al-Mg-Si-Cu合金强度和电导率.功能材料, 47 (2016): 2139-2142.

71.饶栋,陈江华*,杨修波,赵甜甜,余雄伟,赵新奇.三级时效7N01铝合金微观结构与力学性能关系的研究.电子显微学报, 35 (2016): 379-385.

72.刘萍,陈江华*，刘吉梓，杨修波，秦芳，陈勇.主要合金元素对7000系铝合金铸态和均匀化状态的组织影响.电子显微学报, 2013, 32: 6-1

73.龙慧池,陈江华*,刘春辉,李祥亮. Al-7Si合金在热处理过程中的显微结构演变,电子显微学报, 2013, 32: 18-24.

74.高珍,陈江华*,刘吉梓,刘自然,伍翠兰. Al-Cu-Li合金中T1相的演变规律研究.电子显微学报, 2012, 31: 308-314.

75.桑益，陈江华*，刘春辉，王时豪，黄昌军. Mg/Si含量比值对Al-Mg-Si合金析出行为的影响.电子显微学报, 2012, 31: 384−390.

76.桂奇文,陈江华*,伍翠兰,王双宝. Al-Cu-Mg合金中T相的扫描透射电镜研究,电子显微学报, 2012, 31: 301-307.

77.冯佳妮，陈江华*，刘春辉，廖元飞，李祥亮.预时效对6016铝合金烤漆前后组织和性能的影响.电子显微学报, 2012, 31: 461−468.

78.廖元飞，陈江华*，刘春辉，李祥亮，冯佳妮. Al-Mg-Si-Cu合金中晶界和晶内析出相粗化规律的研究.电子显微学报, 2012, 31: 116−123.

79.王时豪，陈江华*，刘春辉，桑益，王漪雯，龙慧池.多级时效对Al-Mg-Si(Cu)合金力学性能和显微结构的影响.电子显微学报, 2012, 31: 420-426.

80.任硕,陈江华*,刘吉梓,方磊,刘萍,明文全,伍翠兰. 7150铝合金时效时晶界析出行为的研究.电子显微学报, 2011, 30: 444-450.

81.李聪,陈江华*,刘春辉,伍翠兰,赵新奇,葛鹏,赵永庆. Ti-6A14Cr(Mo)合金热处理显微组织的研究.电子显微学报,2010, 2: 110-118.

82.刘聪,袁定旺,杨修波,刘吉梓,秦芳,刘春辉,陈江华.组织不均匀性对铝合金焊接区裂纹的影响.电子显微学报, 2015, 34: 181-188.

83.方磊,赵新奇,陈江华,刘吉梓,杨修波,刘萍,明文全,伍翠兰. Al-Zn-Mg基合金多级时效不同热处理阶段的析出行为研究.电子显微学报, 2012, 31: 202−210.

84.刘亚妮,陈江华,尹关杰,刘春辉,伍翠兰,赵新奇.自然时效和Cu含量对A1MgSi(Cu)合金时效硬化行为的影响.电子显微学报,2010, 3: 280-286.

85.万彩云,陈江华,杨修波,刘吉梓,伍翠兰,赵新奇. 7xxx系AlZnMgCu铝合金早中期时效强化析出相的研究.电子显微学报,2010, 5: 55-60.

86.杨浩,陈江华,胡特,刘吉梓,陈刚,赵新奇,吴落义. Cu-Cr-Zr合金时效析出相的研究.电子显微学报,2010, 4:317-321.

87.陈敬,陈江华,刘春辉,赖玉香,顾媛.通过形变时效工艺同时提高Al-Mg-Si-Cu合金强度和电导率.功能材料, 47(2016): 02139-02147.

88.秦芳,孟立春,杨修波,刘聪,陈江华,刘春辉,刘吉梓. Al-Zn-Mg合金焊接接头力学性能与微观组织演变的关系.功能材料, 47(2016): 03237-03242.