姓名 张建新 出生年月 1965.7
Name Jianxin Zhang Born 1965.7
性别 男 学历: 博士
Sex Male Qualification Doctor
专业技术职务 教授 博导聘任时间 2006
行政职务 学术身份
学术团体兼职 日本金属学会会员

学习和工作经历
2008年1月 --- 现在 山东大学 材料科学与工程学院 教授，博士生导师
2005年12月 --- 2007年12月 哈尔滨工业大学 材料科学与工程学院 教授，博士生导师
2001年10月 --- 2006年3月 日本国家材料研究所（NIMS） 研究员
1999年10月 --- 2001年9月 日本国立金属材料技术研究所（NRIM） STA Fellow（日本科学技术厅）
1998年1月 --- 1999年9月 中国科学院金属研究所 博士后
1994年9月 --- 1997年12月 哈尔滨工业大学 金属材料及热处理 博士
1992年7月 --- 1994年8月 山东工业大学 金属材料及热处理 讲师
1989年9月 --- 1992年7月 山东工业大学 金属材料及热处理 硕士
1985年9月 --- 1989年7月 山东工业大学 金属材料及热处理 本科
研究领域介绍
（1）材料物理方向：镍基高温合金的强化及缺陷组态
拥有和制造高性能的战斗机一直是世界各国国防实力的重要标志，而航空发动机材料一直是制约我国战机发展的瓶颈。我国已把高温合金列为国家重大研究专项，因此高温合金关键基础研究是当前新型结构材料研究的热点。课题组以各种先进电子显微镜作为研究手段，探讨高温合金微观结构与性能的关系，揭示先进航空发动机所用镍基单晶高温合金的设计理论、强化机理和位错运动行为，为我国开发新一代的镍基单晶高温合金提供关键技术。课题组与北京工业大学、中国科学院金属研究所、日本国家材料研究所（NIMS）等单位联合培养研究生，学生能熟练掌握当今电子显微分析的实验技能，并为其进一步出国深造奠定坚实的论文写作基础。
（2）金属材料方向：高强度铝合金微观结构与性能
铝合金是工业应用最广泛的一类有色金属结构材料，在航空、航天、汽车、机械制造等行业大量应用。随着科学技术和社会经济的快速发展，高性能铝合金成为研究的热点。课题组主要依托山东滨州渤海活塞股份有限公司这一产学研合作平台，利用高校企业优势互补，共同进行研究开发。通过对高强度铝合金强化机理深入细致的研究，为合金设计和新产品开发提供理论依据。该方向不仅能锻炼学生理论分析能力，撰写出高水平的科研论文，而且做到学以致用，为学生将来走向社会独立创业提供了一个良好的锻炼空间。
（3）材料化学方向：锂离子动力电池及关键材料
锂离子电池作为新能源应用广泛，特别是随着国家大力推广电动汽车，锂离子电池及其关键材料已成为材料化学领域研究的焦点。本课题组有多年从事锂离子电池材料研究的经验，拥有材料制备、电池组装及电化学表征一整套试验及分析测试设备，可以系统地揭示材料性能与结构的密切关系；课题组与山东威能环保电源有限公司、青岛海霸能源集团有限公司、山东海特电子集团、山东鸿正电池材料科技有限公司等知名锂离子电池企业合作密切，为研究生施展科研才能提供了一个良好的产学研基地，既能理论联系实际，又可积累丰富的工作经验，从而为学生进一步深造或走向社会打下良好的基础。

讲授的课程：《固体光电子学》，《固体化学》，《低维材料结构与性能》
取得科研成果情况
发表论文：
1.Fei Sun, Jianxin Zhang, Shengcheng Mao, Xiaodong Han, First principles studies of the structural and electronic properties of the C14 Laves phase XCr2 (X = Ti, Zr, Nb, Hf and Ta), Philosophical Magazine, 93 (2013) 2563-2575.
2.Guohua Zhang, Jianxin Zhang, Bingchao Li, Wei Cai, Double-stage hardening behavior and fracture characteristics of a heavily alloyed Al–Si piston alloy during low-cycle fatigue loading, Materials Science & Engineering A, 561 (2013) 26-33.
3.Jianjun Cui, Bingchao Li, Guohua Zhang, Jianxin Zhang, Zuoshan Wei, Zengjian Feng, Wei Cai, Effect of fiber volume fraction on low cycle fatigue behavior of Al2O3f/Al-Si composites, Applied Mechanics and Materials, 268-270 (2013) 87-91.
4.F. Sun, J.X. Zhang, P. Liu, Q. Feng, S.C. Mao, X.D. Han, Atomic scale interfacial and compositional characteristics of the σ and γ phases of Ni-based single-crystal superalloys, Acta Materialia, 60 (2012) 6631-6640.
5.Fei Sun, Jianxin Zhang, Yun Tian, Site preference of refractory elements in ??-Ni3Al alloyed with Ru, Philosophical Magazine Letters, 92 (2012) 487-494.
6.Fei Sun, Jianxin Zhang, Pan Liu, Qiang Feng, Xiaodong Han, Shengcheng Mao, High resolution transmission electron microscopy studies of ? phase in Ni-based single crystal superalloys, Journal of Alloys and Compounds, 536 (2012) 80-84.
7.F. Sun, J.X. Zhang, Y. Tian, Calculation of alloying effect of Ruthenium in Ni-based single-crystal superalloys, Computational Materials Science, 60 (2012) 163-167.
8.Guohua Zhang, Bingchao Li, Jianxin Zhang, Zengjian Feng, Zuoshan Wei, Wei Cai, Unique cyclic deformation behavior of a heavily alloyed Al–Si piston alloy at different temperatures, Progress in Natural Science: Materials International, 22[5] (2012) 445-451.
9.Jianjun Cui, Fei Sun, Jianxin Zhang, Site preference of refractory elements in Ni-based single-crystal superalloys alloying with Ru: from first princiles, Advanced Materials Research, 554-556 (2012) 3-12.
10.崔建军，张建新，原田 广史，镍基单晶高温合金热机疲劳断裂特征，材料科学与工艺，20[2] (2012) 39-44.
11.Guohua Zhang, Bingchao Li, Jianxin Zhang, Wei Cai, The strain amplitude-controlled cyclic fatigue behavior of Al2O3 fiber reinforced Al-Si alloy composite at elevated temperatures, Progress in Natural Science: Materials International, 22 (2012) 153-159.
12.Guohua Zhang, Bingchao Li, Jianxin Zhang, Zengjian Feng, Zuoshan Wei, Wei Cai, Effect of intermetallics on the low cyclic fatigue crack growth behavior of a heavily alloyed Al-Si piston alloy, Advanced Materials Research, 562-564 (2012) 281-285.
13.Guohua Zhang, Jianxin Zhang, Bingchao Li, Wei Cai, Characterization of tensile fracture in heavily alloyed Al-Si piston alloy, Progress in Natural Science: Materials International, 21 (2012) 380-385.
14.孙 飞, 张建新, Ru对镍基单晶高温合金微观组织的影响, 材料热处理学报, 32[10] (2011) 1-8.
15.J.X. Zhang, H. Harada, Dislocation configurations in single-crystal superalloys during high-temperature low-stress creep, Advanced Materials Research, 306-307 (2011) 433-437.
16.F. Sun, J.X. Zhang, Influence of Ru on the Microstructure of Ni-base Single Crystal Superalloys, Advanced Materials Research，306-307 (2011) 562-571.
17.F. Sun, J.X. Zhang, Topologically close-packed phase precipitation in Ni-based superalloys, Advanced Materials Research，320 (2011) 26-32.
18.B. Zhang, Y. Tian, J.X. Zhang, W. Cai, Fourier transformation infrared spectrum studies on the role of fluorine in SnO2 : F films, Applied Physics Letters, 98 (2011) 021906
19.B. Zhang, Y. Tian, J.X. Zhang, W. Cai, The FTIR studies of SnO2:Sb(ATO) films deposited by spray pyrolysis, Materials Letters, 65 (2011) 1204-1206.
20.B. Zhang, Y. Tian, J.X. Zhang, W. Cai, The role of oxygen vacancy in fluorine-doped SnO2 films, Physica B: Condensed Matter, 406 (2011) 1822-1826.
21.B. Zhang, Y. Tian, J.X. Zhang, W. Cai, The structural and electrical studies on the Boron-doped SnO2 films deposited by spray pyrolysis, Vacuum, 85 (2011) 986-989.
22.B. Zhang, Y. Tian, J.X. Zhang, W. Cai, Structural, optical, electrical properties and FTIR studies of fluorine doped SnO2 films deposited by spray pyrolysis, Journal of Materials Science, 46 (2011) 1884-1889.
23.B. Zhang, Y. Tian, J.X. Zhang, W. Cai, The studies on the role of fluorine in SnO2:F films prepared by spray pyrolysis with SnCl4, Journal of Optoelectronics and Advanced Materials, 13[1-2] (2011) 89-93.
24.X.L. Meng, W. Cai, Y.D. Fu, J.X. Zhang, L.C. Zhao, Martensite structure in Ti–Ni–Hf–Cu quaternary alloy ribbons containing (Ti,Hf)2Ni precipitates, Acta Materialia, 58 (2010) 3751–3763.
25.B. Zhang, Y. Tian, J.X. Zhang, W. Cai, The characterization of fluorine doped tin oxide films by Fourier Transformation Infrared spectrum, Materials Letters, 64 (2010) 2707-2709.
26.B. Zhang, Y. Tian, J.X. Zhang, W. Cai, The FTIR studies on the structural and electrical properties of SnO2:F films as a function of hydrofluoric acid concentration, Optoelectronics and Advanced Materials – Rapid Communications, 4 (2010) 1158-1162.
27.J.X. Zhang, H. Harada, Y. Koizumi, T. Kobayashi, Dislocation motion in the early stages of high-temperature low-stress creep in a single-crystal superalloy with a small lattice mis?t, Journal of Materials Science, 45 (2010) 523-532.
28.J.X. Zhang, H. Harada, Y. Koizumi, T. Kobayashi, Crack appearance of single-crystal nickel-base superalloys after thermomechanical fatigue failure, Scripta Materialia, 61 (2009) 1105-1108.
29.J.X. Zhang, H. Harada, Y. Ro, Y. Koizumi, T. Kobayashi, Thermomechanical fatigue mechanism in a modern single crystal nickel base superalloy TMS-82, Acta Materialia, 56 (2008) 2975-2987.
30.X.L. Meng, W. Cai, Y.D. Fu, Q.F. Li, J.X. Zhang, L.C. Zhao, Shape-memory behaviors in an aged Ni-rich TiNiHf high temperature shape memory alloy, Intermetallics, 16 (2008) 698-705.
31.X.L. Meng, Y.D. Fu, W. Cai, J.X. Zhang, Q.F. Li, L.C. Zhao, Martensitic transformation behavior and shape memory effect of an aged Ni-rich Ti-Ni-Hf high temperature shape memory alloy, Diffusion and Defect Data Part B (Solid State Phenomena), 138 (2008) 399-404.
32.J.X. Zhang, H. Harada, Y. Ro, Y. Koizumi, Superior thermo-mechanical fatigue property of a superalloy due to its heterogeneous microstructure, Scripta Materialia, 55 (2006) 731-734.
33.J.X. Zhang, M. Sato, A. Ishida, Deformation mechanism of martensite in Ti-rich Ti-Ni shape memory alloy thin film, Acta Materialia, 54 (2006) 1185-1198.
34.J.X. Zhang, H. Harada, Y. Koizumi, New configuration of a [001] superdislocation formed during high-temperature creep in the ?? phase of a single-crystal superalloy TMS-138, Journal of Materials Research, 21 (2006) 647-654.
35.J.X. Zhang, Y. Ro, H. Zhou, H. Harada, Deformation twins and failure due to thermo-mechanical cycling in TMS-75 superalloy, Scripta Materialia, 54 (2006) 655-660.
36.T. Kobayashi, H. Harada, J.X. Zhang, Influence of Heat Treatment on Microstructure and Mechanical Properties of a 1st Generation Single-Crystal Superalloy, Journal of Japan Institute of Metals, 70 (2006) 47-50.
37.J.X. Zhang, J.C. Wang, H. Harada and Y. Koizumi, The Effect of Lattice Misfit on the Dislocation Motion in Superalloys during High-Temperature Low-Stress Creep, Acta Materialia, 53 (2005) 4623-4633.
38.J.X. Zhang, Y. Koizumi and H. Harada, Strengthening mechanisms in some single-crystal superalloys, Materials Science Forum, V475-479 (2005) 623-626.
39.T. Kobayashi, J.X. Zhang, Y. Koizumi, H. Harada, Influence of Alloying Elements on the Creep Strength of a 5th Generation Single Crystal Superalloy TMS-173, Journal of Japan Institute of Metals, 69 (2005) 241-244.
40.J.X. Zhang, Y. Koizumi, T. Kobayashi, T. Murakumao, H. Harada, Strengthening by ?/?? Interfacial Dislocation Networks in TMS-162 - Toward a Fifth-Generation Single-Crystal Superalloy, Metallurgical and Materials Transactions A, 35A (2004) 1911-1914.
41.J.X. Zhang, M. Sato, A. Ishida, Effect of two types of precipitates upon structure of martensite in sputter-deposited Ti-Ni thin films, Smart Materials and Structures 13 (2004) N37-N42.
42.J.X. Zhang, T. Murakumo, H. Harada, and Y. Koizumi, Dependence of creep strength on the interfacial dislocations in a fourth generation SC superalloy TMS-138, Scripta Materialia, 48 (2003) 287-293.
43.J.X. Zhang, M. Sato and A. Ishida, On the Ti2Ni precipitates and Guinier-Preston zones in Ti-rich Ti-Ni thin films, Acta Materialia, 51 (2003) 3121-3130.
44.J.X. Zhang, T. Murakumao, Y. Koizumi, T. Kobayashi, H. Harada, Slip geometry of dislocations related to cutting of the ?? phase in a new generation single-crystal superalloy, Acta Materialia, 51 (2003) 5073-5081.
45.J.X. Zhang and H. Q. Ye, The deformation twin in lamellar Ti3Al/TiAl structure, Solid State Communications 126 (2003) 217-221.
46.J.X. Zhang, T. Murakumo, Y. Koizumi and H. Harada, Interfacial dislocation characteristics in a fourth generation single crystal TMS-138 superalloy, Journal of Materials Science, 38 (2003) 4883-4888.
47.W. Cai, J.X. Zhang, Y.F. Zheng, L.C. Zhao, Structure and mobility of martensite variant interfaces in a Cu-Zn-Al shape memory alloy, Journal de Physique IV, 112 (2003) 519-522.
48.A. Ishida, J.X. Zhang, Martensite structure in Ti-rich Ti-Ni thin films, Journal de Physique IV, 112 (2003) 849-852.
49.Y. Koizumi, J.X. Zhang, T. Kobayashi, H. Harada, Development of next generation Ni-base single crystal superalloys containing Ruthenium, Journal of Japan Institute of Metals, 67 (2003) 468-471.
50.Fengqiu Tang, Hiroshi Fudouzi, Jianxin Zhang, Yoshio Sakka, Preparation of macroporous titania from nanoparticle building blocks and polymer templates, Scripta Materialia, 49 (2003) 735-740.
51.J.X. Zhang, M. Sato and A. Ishida, Structure of martensite in sputter-deposited Ti-Ni thin films containing homogeneously distributed Ti2Ni precipitates, Philosophical Magazine A, 82 (2002) 1433-1449.
52.J.X. Zhang, M. Sato and A. Ishida, Influence of Guinier-Preston zones on deformation in Ti-rich Ti-Ni Thin Films, Philosophical Magazine Letters, 82 (2002) 257-264.
53.J.X. Zhang, T. Murakumao, Y. Koizumi, T. Kobayashi, H. Harada and S. Masaki, Interfacial dislocation networks strengthening a fourth-generation single-crystal TMS-138 superalloy, Metallurgical and Materials Transactions A, 33A (2002) 3741-3746.
54.J.X. Zhang, T. Murakumao, Y. Koizumi, T. Kobayashi, H. Harada and S. Masaki, Interfacial dislocation networks strengthening a fourth-generation single-crystal TMS-138 superalloy, Report of the 123rd Committee on Heat-Resisting Materials and Alloys, Japan Society for the Promotion of Science, 43 (2002) No.3, 289-297
55.J.X. Zhang, M. Sato and A. Ishida, Structure of martensite in sputter-deposited Ti-Ni thin films containing GP zones, Acta Materialia, 49 (2001) 3001-3010.
56.J.X. Zhang and H.Q. Ye, Twin Intersection in a deformed TiAl alloy, Scripta Materialia, 45 (2001) 133-138.
57.J.X. Zhang and H.Q. Ye, HREM observation of the tip of deformation-induced ? twin in a TiAl alloy, Journal of Materials Science Letters 20 (2001) 9-10.
58.J. Zhang, L. He, Y. Cui and H. Ye, Microstructural characteristics of Ti-48Al-2Cr alloy, Journal of Materials Engineering and Performance, 10 (2001) 378-389.
59.J.X. Zhang and H.Q. Ye, Deformation-induced ?2?? phase transformation in a Ti-48Al-2Cr alloy, Journal of Materials Research, 15 (2000) 2145-2150.
60.Y.F. Zheng, W. Cai, J.X. Zhang, L.C. Zhao and H.Q. Ye, Microstructural evolution inside the stess induced martensite variant in a Ti-Ni-Nb shape memory alloy, Acta Materialia, 48 (2000) 1409-1425.
61.Y.F. Zheng, B.M. Huang, J.X. Zhang and L.C. Zhao, The microstructure and linear superelasticity of cold-drawn TiNi alloy, Materials Science and Engineering A, 279 (2000) 25-35.
62.J.X. Zhang, Y.F. Zheng and L.C. Zhao, The structure and mobility of the intervariant boundaries in 18R martensite in a Cu-Zn-Al alloy, Acta Materialia, 47 (1999) 2125-2141.
63.J.X. Zhang, Y.F. Zheng, Y.C. Luo and L.C. Zhao, The substructure and boundary structure of the deformed 18R martensite in a Cu-Zn-Al alloy, Acta Materialia, 47 (1999) 3497-3506.
64.Y.F. Zheng, J.X. Zhang, L.C. Zhao and H.Q. Ye, High, HREM studies on the microstructure of severely cold-rolled TiNi alloy after reverse martensitic transformation, Materials Letters, 41 (1999) 9-15.
65.J.X. Zhang, Y.F. Zheng, B.M. Huang, W. Cai and L.C. Zhao, Characteristics of the A/D type twin boundary in 18R martensite in a Cu-Zn-Al alloy, Materials Science and Engineering A, 251 (1998) 150-156.
66.J.X. Zhang, W. Cai, Y.F. Zheng and L.C. Zhao, Type II twins and their deformation characteristics in 18R martensite in a Cu-Zn-Al alloy, Materials Letters, 34 (1998) 351-355.
67.J.X. Zhang, Y.F. Zheng, W. Cai and L.C. Zhao, High resolution electron microscope observation of two kinds of intervariant boundaries in 18R martensite in a Cu-Zn-Al alloy, Journal of Materials Science Letters, 17 (1998) 395-397.
68.J.X. Zhang, Y.F. Zheng, W. Cai and L.C. Zhao, High resolution electron microscope observation of the non-basal planar defects in 18R martensite in a Cu-Zn-Al alloy, Journal of Materials Science Letters, 17 (1998) 1657-1659.
69.J.X. Zhang, W. Cai, Y.F. Zheng and L.C. Zhao, Mobility of various intervariant interfaces in 18R martensite in a Cu-Zn-Al alloy -- Part I In situ observations, Journal of Materials Science and Technology, 14 (1998) 251-254.
70.J.X. Zhang, Y.F. Zheng, W. Cai and L.C. Zhao, Mobility of various intervariant interfaces in 18R martensite in a Cu-Zn-Al alloy -- Part II some theoretical considerations, Journal of Materials Science and Technology, 14 (1998) 349-352.
71.J.X. Zhang, Y.F. Zheng, W. Cai and L.C. Zhao, The type II defect in 18R martensite in a Cu-Zn-Al alloy, Acta Metallurgica Sinica, 11 (1998) 29-32.
72.J.X. Zhang, Y.F. Zheng, W. Cai and L.C. Zhao, The relationships between the martensite variants in Cu-based shape memory alloys analyzed with phenomenological theory and group theory, 金属学报, 34 (1998) 232-236.
73.Y.F. Zheng, W. Cai, J.X. Zhang, Y.Q. Wang, L.C. Zhao and H.Q. Ye, High resolution electron microscope study on the substructure of Ti-Ni-Hf B19' martensite, Materials Letters, 36 (1998) 142-147.
74.J.X. Zhang, Y.X. Liu, W. Cai and L.C. Zhao, The mechanisms of two way shape memory effect in a Cu-Zn-Al alloy, Materials Letters, 33 (1997) 211-214.
75.J.X. Zhang, W. Cai and L.C. Zhao, DSC analysis of a Cu-Zn-Al two way shape memory alloy during ageing, Transactions of Nonferrous Metals Society of China, 7 (1997) 34-37.
76.J.X. Zhang, Y.F. Zheng, W. Cai and L.C. Zhao, On the A/D type twin boundary in 18R martensite in a Cu-Zn-Al alloy, Acta Metallurgica Sinica, 10 (1997) 425-429.
77.J.X. Zhang, W. Cai and L.C. Zhao, The progress of two way shape memory effect of Cu- based shape memory alloys, 宇航材料, 27 (1997) 16-20.
78.J.X. Zhang, Y.F. Zheng, W. Cai and L.C. Zhao, Progress in the structure of intervariant boundaries and their mobility in some Cu-based shape memory alloys, 功能材料, 28 (1997) 368-371.
79.J.X. Zhang, Y.F. Zheng, W. Cai and L.C. Zhao, the A/D type twin boundary in 18R martensite in a Cu-Zn-Al alloy, Proceedings of China-Japan Bilateral Symposium on the shape memory alloys, (edited by Y. Chu and K. Otsuka), Hangzhou, China, (1997) 209-214.
80.J.X. Zhang, M. Sato and A. Ishida, Structure of martensite in sputter-deposited Ti-Ni thin film, 日本金属学会演讲概要<2000年春期>, p.255.
81.J.X. Zhang, M. Sato and A. Ishida, Deformation of martensite in Ti-rich Ti-Ni thin film, 日本金属学会演讲概要<2000年秋期>, p.337.
82.J.X. Zhang, M. Sato and A. Ishida, Structure of martensite in sputter-deposited Ti-Ni thin film containing homogeneously distributed Ti2Ni precipitates, 日本金属学会演讲概要<2001年春期>, p.354.
83.J.X. Zhang, M. Sato and A. Ishida, Influence of Guinier-Preston zones on deformation in Ti-rich Ti-Ni thin films, 日本金属学会演讲概要<2001年秋期>, p.89.
84.J.X. Zhang, T. Murakumao, Y. Koizumi, T. Kobayashi, H. Harada and S. Masaki, Interfacial dislocation networks strengthening a fourth-generation single-crystal TMS-138 superalloy, Report of the 123rd Committee on Heat-Resisting Materials and Alloys, Japan Society for the Promotion of Science, 43 (2002) No.3, 289-297.
85.J.X. Zhang, T. Murakumo, Y. Koizumi and H. Harada, Effect of interfacial dislocation networks on creep properties of the 4th generation SC superalloy TMS-138, 日本金属学会演讲概要<2002年春期>, p.154.
86.J.X. Zhang, M. Sato and A. Ishida, Microstructure of martensite in Ti-rich Ti-Ni shape memory alloy thin film, 日本金属学会演讲概要<2002年春期>, p.304.
87.J.X. Zhang, T. Murakumo, Y. Koizumi and H. Harada, Superdislocations related to gamma prime cutting in a fourth generation superalloy TMS-138, 日本金属学会演讲概要<2002年秋期>, p.274.
88.J.X. Zhang, M. Sato and A. Ishida, Structure of stress-induced martensite in Ti-rich Ti-Ni thin films, 日本金属学会演讲概要<2002年秋期>, p.414.
89.J.X. Zhang, T. Murakumo, Y. Koizumi and H. Harada, A new configuration of [001] superdislocation in the gamma prime phase of a fourth-generation single-crystal TMS-138 superalloy, 日本金属学会演讲概要<2003年春期>, p.394.
90.J.X. Zhang, M. Sato and A. Ishida, Deformation of martensite in Ti-rich Ti-Ni shape memory thin films, 日本金属学会演讲概要<2003年春期>, p.146.
91.J.X. Zhang, T. Murakumo, Y. Koizumi, T. Kobayashi, and H. Harada, Effect of lattice misfit on dislocation motion at the primary creep stage of superalloys, 日本金属学会演讲概要<2003年秋期>, p.439.
92.石田 章, 张 建新, 佐藤 守夫, Ti-48.9at%Ni合金薄膜martensite相的变形, 日本金属学会演讲概要<2003年秋期>, p.337.
93.张 建新, 村云 岳朗, 小泉 裕, 小林 敏治, 原田 广史, A complete description of dislocation motion in a modern superalloy during high temperature low stress creep, 日本金属学会演讲概要<2004年春期>, p.282.
94.吕 芳一, 张 建新, 周 浩, 小泉 裕, 小林 敏治, 横川 忠晴, 原田 广史, 第2和第3代镍基单晶超合金热疲劳试验后的微观组织观察, 日本金属学会演讲概要<2004年春期>, p.281.
95.张 建新, 吕 芳一, 周 浩, 小泉 裕, 小林 敏治, 原田 广史, Transmission electron microscope observation of superalloys after thermal mechanical fatigue test, 日本金属学会演讲概要<2004年秋期>, p.405.
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承担科研项目情况
1多元素交互作用下镍基单晶高温合金位错芯的结构和位错芯区的应变场研究国家自然科学基金2013.1-2016.12 项目批准号：**负责人
2镍基单晶高温合金热机疲劳过程中裂纹扩展微观机制及相关孪晶形成机理研究国家自然科学基金2011.1-2013.12 项目批准号：**负责人
3先进镍基单晶高温合金中强化元素行为及其与微观缺陷交互作用的纳米尺度研究国家自然科学基金2010.1-2012.12 项目批准号：**负责人
4高性能活塞用铝基复合材料的高温疲劳行为及微结构演变研究国家博士后科学基金2010.1-2011.12负责人
5浮动密封环摩擦磨损特性横向课题2009-2012负责人
6高循环稳定性的锰酸锂产业化技术研究横向课题2011-2013负责人
与国内外联合培养研究生情况
无
本人培养的博士生适合从事工作领域
博士毕业后具有独立从事科学研究的能力，适合在高等学校、科研院所、高新技术研发机构从事材料领域的教学和科研工作。
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联系方式 **
联系地址 济南市经十路73号山东大学材料学院
电子邮箱 jianxin@sdu.edu.cn