材料科学与工程

靳慎豹

时间:2018-09-21来源:材料科学与工程学院/格莱特研究院点击:385
姓 名靳慎豹性 别
出生年月1984年12月籍贯
民 族汉族政治面貌群众
最后学历博士研究生毕业最后学位工学博士
技术职称讲师导师类别硕士生导师
导师类型校内兼职导师
行政职务
Emailjinshenbao@njust.edu.cn
工作单位材料科学与工程学院邮政编码210094
通讯地址南京市玄武区孝陵卫街200号340栋305室
单位电话025-84303406
个人主页

指导学科
学科专业(主)0805|材料科学与工程招生类别硕士所在学院材料科学与工程学院
研究方向

材料精细微观组织结构(三维原子探针),包括纳米金属;高温合金;陶瓷材料等。

科研项目

1、国家自然科学基金青年项目,51604156,燃烧合成TMCx陶瓷晶体的结构演化及其对界面结构、生长行为的影响,2017.1-2019.12,在研,主持。

 

发表论文

2019年度:

  1. J. Xue, S.B. Jin*, X.H. An, X.Z. Liao, G. Sha*, Understanding formation of Mg-depletion zones in Al-Mg alloys under high pressure torsion, Journal of Materials Science & Technology, 2019, 35: 858-864.

  2. Y.D. Zhang, S.B. Jin*, P.W. Trimby, X.Z. Liao, M.Y. Murashkin, R.Z. Valia, G. Sha*, Strengthening mechanisms in an ultrafine-grained AlZnMgCu alloy processed by high pressure torsion at different temperatures, Materials Science and Engineering A, 2019, 752: 223.

  3. Y.G. Qin, S.C. Lin, S.B. Jin*, J.Z. Liu, Strengthening Al-Zn-Mg Alloys via Ultra-Fine Lamella Structures Containing a High Density of Dislocations and Clusters, Metals, 2019, 9(2):140.

  4. Y.D. Zhang, S.B. Jin, P.W. Trimby, X.Z. Liao, M.Y. Murashkin, R.Z. Valia, J.Z. Liu, J.M. Cairney, S.P. Ringer, G. Sha*, Dynamic precipitation, segregation and strengthening of an Al-Zn-Mg-Cu alloy (AA7075) processed by high-pressure torsion, Acta Materialia, 2019, 162:19-32.

  5. Z.W. Wang, S.B. Jin, H. Zhou, Y.S. Li*, Y. Cao*, Y.T. Zhu, Evolution of twinning systems and variants during sequential twinning in cryo-rolled titanium, International Journal of Plasticity, 2019, 112:52-67.

  6. M.X. Guo, Y.D.Zhang, G.J. Li, S.B. Jin, G.Sha, J.S. Zhang, L.Z. Zhuang, E.J. Lavernia, Solute clustering in Al-Mg-Si-Cu-(Zn) alloys during aging, Journal of Alloys and Compounds, 2019, 774: 347.

2018年度:

  1. C.C. Du, S.B. Jin, Y. Fang, J. Li, S.Y. Hu, T.T. Yang, Y. Zhang, J.Y. Huang, G. Sha, Y.G. Wang, Z.X. Shang, X.H. Zhang, B.R. Sun, S.W. Xin, T.D. Shen, Ultrastrong nanocrystalline steel with exceptional thermal stability and radiation tolerance, Nature Communications 2018, 9(1).

  2. F. Qian, S.B. Jin, G. Sha, Y.J. Li*, Enhanced dispersoid precipitation and dispersion strengthening in an Al alloy by microalloying with Cd, Acta Materialia, 2018, 157:114-125.

  3. N. Zhang, S.B. Jin, G.Sha, J.K. Yu, X.C. Cai, C.C. Du, T.D.Shen, Segregation induced hardening in annealed nanocrystalline Ni-Fe alloy, Materials Science and Engineering A, 2018, 735:354-360.

  4. H.L. Jia, S.B. Jin, Y.J. Li, Formation of Σ3{110} incoherent twin boundaries through geometrically necessary boundaries in an Al-8Zn alloy subjected to one pass of equal channel angular pressing, Journal of Alloys and Compounds, 2018, 762: 190-195.

2017年度以前:

  1. X.Z. Hu, S.B. Jin, H. Zhou, Z. Yin, J. Yang, Y.L. Gong, Y.T. Zhu, G. Sha, X.K. Zhu, Bauschinger Effect and Back Stress in Gradient Cu-Ge Alloy, Metallurgical and Materials Transactions A, 2017, 48:3943–3950.

  2. S.B. Jin, K. Marthinsen, Y.J. Li*, Formation of twin boundaries in titanium by kinking mechanism through accumulative dislocation slip, Acta Materialia, 2016, 120:403-414.

  3. S.B. Jin, K. Zhang, R. Bjørge, N.R. Tao, K. Marthinsen, K. Lu, Y.J. Li*, Formation of incoherent deformation twin boundaries in a coarse-grained Al-7Mg alloy, Applied Physics Letters, 2015, 54(7): 091901.01-091901.04.

  4. S.B. Jin, N.T. Tao, K. Marthinsen, Y.J. Li*, Deformation of an Al–7Mg alloy with extensive structural micro-segregations during dynamic plastic deformation, Materials Science and Engineering A, 2015, 628:160-167.

  5. S.L. Shu, B. Xing, F. Qiu, S.B. Jin, Q.C. Jiang, Comparative study of the compression properties of TiAl matrix composites reinforced with nano-TiB2 and nano-Ti5Si3 particles, Materials Science and Engineering A, 2013, 560: 596-600.

  6. S.B. Jin, P. Shen, D.S. Zhou, Q.C. Jiang*, A Common Regularity of Stoichiometry-Induced Morphology Evolution of Transition Metal Carbides, Nitrides, and Diborides during Self-Propagating High-Temperature Synthesis, Crystal Growth & Design, 2012, 12(6):2814-2824.

  7. S.B. Jin, P. Shen, Y.J. Li, D.S. Zhou, Q.C. Jiang*, Synthesis of spherical NbB2-x particles by controlling the stoichiometry, CrystEngComm, 2012,14:1925-1928.

  8. Y.F. Yang*, S.B. Jin, Q.C. Jiang, Effect of reactant C/Ti ratio on the stoichiometry, morphology of TiCx and mechanical properties of TiCx-Ni composite,CrystEngComm, 2012,15:852-855.

  9. D.S. Zhou, S.B. Jin, Y.J. Li, F. Qiu, F. Deng, J.G. Wang, Q.C. Jiang*,Effect of stoichiometry on the surface energies of {100} and {111} and the crystal shape of TiCx and TiNx, CrystEngComm, 2012, 15:643-649.

  10. Y.M. Xia, Z.H. Bai, F. Qiu, S.B. Jin, Q.C. Jiang, Effects of multi-modification of rare earth oxides PrxOy and LaxOy on microstructure and tensile properties of casting Al–Cu alloy, Materials Science and Engineering A, 2012, 558: 602-606.

  11. S.L. Shu, F. Qiu, B. Xing, S.B. Jin, Y.W. Wang, Q.C. Jiang, Study of effect of Mn addition on the mechanical properties of Ti2AlC/TiAl composites through first principles study and experimental investigation. Intermetallics, 2012, 28: 65-70.

  12. H.L. Zhao, F.Qiu, S.B.Jin, Q.C.Jiang Compression properties and work-hardening effect of the NiAl-matrix composite with TaB2 and TaB, Intermetallics, 2012, 27: 1-5.

  13. S.L. Shu, F. Qiu, S.J. Lü, S.B. Jin, Q.C. Jiang, Phase transitions and compression properties of Ti2AlC/TiAl composites fabricated by combustion synthesis reaction. Materials Science and Engineering A, 2012, 539: 344-348.

  14. Q.Q. Xuan, S.L. Shu, F. Qiu, S.B. Jin, Q.C. Jiang, Different strain-rate dependent compressive properties and work-hardening capacities of 50 vol% TiCx/Al and TiB2/Al composites. Materials Science and Engineering A, 2012, 538: 335-339.

  15. H.L. Zhao, F. Qiu, S.B. Jin, Q.C. Jiang, Effect of different strain rates on compression property and work-hardening behavior for the NiAl-matrix composite with 1.7 wt.% NbB2 and NbxC. Materials Science and Engineering A, 2012, 534: 22-25.

  16. S.B. Jin, P. Shen, D.S. Zhou, Q.C. Jiang*, Self-propagating high-temperature synthesis of nano-TiCx particles with different shapes by using carbon nano-tube as C source, Nanoscale Research Letters, 2011, 6:515-521.

  17. Q.L. Lin, P. Shen*, L.L. Yang, S.B. Jin, Q.C. Jiang, Wetting of TiC by molten Al at 1123–1323K, Acta Materialia, 2011, 59(5):1898-1911.

  18. H.L. Zhao, F. Qiu, S.B. Jin, Q.C. Jiang*, High room-temperature plastic and work-hardening effect of the NiAl-matrix composites reinforced by particulates. Intermetallics, 2011, 19(3): 376-381.

  19. S.L. Shu, F. Qiu, S.B. Jin, J.B. Lu, Q.C. Jiang, Compression properties and work-hardening behavior of Ti2AlC/TiAl composites fabricated by combustion synthesis and hot press consolidation in the Ti–Al–Nb–C system. Materials & Design, 2011, 32(10): 5061-5065.

  20. H.L. Zhao, F. Qiu, S.B. Jin, Q.C. Jiang, High work-hardening effect of the pure NiAl intermetallic compound fabricated by the combustion synthesis and hot pressing technique. Materials Letters, 2011, 65(17-18): 2604-2606.

  21. S.B. Jin, P. Shen, Q.L. Lin, L. Zhan, Q.C. Jiang*, Growth Mechanism of TiCx during Self-Propagating High-Temperature Synthesis in an Al−Ti−C System, Crystal Growth & Design, 2010, 10(4):1590-1597.

  22. S.B. Jin, P. Shen, B.L. Zou, Q.C. Jiang*, Morphology Evolution of TiCx Grains During SHS in an Al−Ti−C System, Crystal Growth & Design, 2009, 9(2):646-649.

  23. B.L. Zou, S.B. Jin, P. Shen, Q.C. Jiang, Effect of reactant C/Ti ratio on the stoichiometry of Combustion-synthesized TiCx in Ti-C system. Journal of the Ceramic Society of Japan, 2009, 117(1364): 525-528.

  24. L. Zhan, P. Shen, S.B. Jin, Q.C. Jiang. Combustion synthesis of Ti (C, N)–TiB2 from a Ti–C–BN system. Journal of Alloys and Compounds, 2009, 480(2): 315-320.

  25. P. Shen, B.L. Zou, S.B. Jin, Q.C. Jiang, Reaction mechanism in self-propagating high temperature synthesis of TiC-TiB2/Al composites from an Al-Ti-B4C system. Materials Science and Engineering A, 2007, 454: 300-309.

 

科研创新

(1)   发明专利,CN201110209562.3

(2)   发明专利,CN201110209555.3

(3)   发明专利,CN201110209567.6

 

教学活动

衍射分析(diffraction analysis)

现代材料检测方法

 


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