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李才巨

更新日期:2018-03-08

 

 

李才巨   博士  教授  博士生导师

Email: lcj@kust.edu.cn; lcj98@hotmail.com

云南省昆明市五华区学府路253号新葡萄娱乐在线网站,650093

 

Professor  Dr.  Caiju Li

Faculty of Materials Science and Engineering

Kunming University of Science and Technology

650093 Kunming

Xuefu Road 253

Kunming 650093

China

Email: lcj@kust.edu.cnlcj98@hotmail.com

 

 

教育背景 (Education)

1. 2008.09 - 2014.06  新葡萄娱乐在线网站   博士

2. 2000.09 - 2003.06  清华大学材料科学与工程系         硕士

3. 1996.09 - 2000.06  澳门葡萄京官方网站科学与工程系         学士

 

研究方向 (Research Area)

1. 铝基复合材料的制备及应用

2. 材料基因工程及新型无铅锡基焊料开发

3. 亚稳态(纳米晶、超细晶、非晶)新材料的制备及应用

 

工作经历 (Work Experience)

1. 2012/06 - 至今,澳门葡萄京官方网站,新葡萄娱乐在线网站,副教授、教授

2. 2011/07 - 2012/06,云南锡业集团(控股)有限责任公司,乾元光能产业股份有限公司,挂职锻炼(总经理助理)

3. 2011/01 - 2011/07,澳门葡萄京官方网站,新葡萄娱乐在线网站,副教授

4. 2010/01 - 2011/01,德国德累斯顿莱布尼茨固体与材料研究所(IFW-Dresden),复杂材料研究所,国家留学基金委公派访问学者

5. 2003/07 – 2010/01,澳门葡萄京官方网站,新葡萄娱乐在线网站,助教、讲师、副教授

 

科研项目(Research Projects)

1. 云南省重大科技专项,2019ZE001-3,云南省稀贵金属材料基因工程(一期),— Sn-Bi系合金的高通量制备与表征及焊料合金开发,2019/01-2021/12,在研,主持;

2. 云南省重大科技专项,2019ZE001-3,云南省稀贵金属材料基因工程(一期)—二维特色金属材料高通量制备技术与装备,2019/01-2021/12,在研,主持;

3. 云南省重大科技专项,2018ZE007,云南省稀贵金属材料基因工程(一期)微合金化锡锌合金焊料的高通量制备开发2018/01-2019/12,在研,主持;

4. 云南省应用基础研究面上项目,2018FB085,复合球磨粉末冶金法制备CNTs/Al复合材料及强化机理,2018/06-2021/05,在研,主持;

5. 云南省高等学校卓越青年教师特殊培养项目,10968378012015/09-2018/08,已结题,主持;

6. 云南省教育厅科研基金重大专项(产业化培育项目),2016CYH08,先进碳纳米管增强铜基复合材料的关键制备技术与应用研究,2016/09-2019/09,在研,骨干参研;

7. 云南省科技人才和平台计划项目,2017HC033,云南省先进粉体材料创新团队,2016/10-2019/10,已结题,核心成员;

8. 国家自然科学基金项目,51361017,快速凝固制备Zr-Co-(Al)合金及其变形行为与强韧化机理,2013/01-2017/12,已结题,主持;

9. 云南省应用基础研究面上项目,2011FB021,多壁碳纳米管强化铝基复合材料制备及表征,2011/10-2014/09,已结题,主持;

10. 云南省教育厅科研基金重大项目,2010Z012,机械球磨法制备多壁碳纳米管强化铝基复合材料研究,2010/10-2012/09,已结题,主持;

11. 云南省应用基础研究重大项目,2014FC001,碳纳米管增强金属基复合材料应用基础研究,2014/10-2017/09,已结题,骨干参研;

12. 国家自然科学基金项目,51301078,大块金属玻璃微观结构演变的原位同步辐射研究,2013/01-2016/12,已结题,骨干参研.

近年代表性文章 (Selected Publications)

2020

[1]     N.Y. Li, C. Yang, C.J. Li*, H.D. Guana, D. Fang, J.M. Tao, Y.C. Liu, J.H. Yi*. Carbon nanotubes reinforced aluminum matrix composites with high elongation prepared by flake powder metallurgy. Diamond & Related Materials. 2020: 107907.  https:// doi.org/10.1016/j.diamond.2020.107907

[2]     X.Q. Liu, C.J. Li*, X. You, Z.Y. Xu, X. Li, R. Bao, J.M. Tao, J.H. Yi*. Size-dependent effects of Ti powders in the pure aluminum matrix composites reinforced by carbon nanotubes. Journal of Alloys and Compounds, 2020, 823: 153824.

[3]     H.D. Guan, C.J. Li*, P. Gao, K.G. Prashanth, J. Tan, J. Eckert, J.M. Tao, J.H. Yi*. Aluminum matrix composites reinforced with metallic glass particles with core-shell structure. Materials Science and Engineering: A, 2020, 771: 138630.

[4]     K.R. Li, W.F. Lu, C.J. Li*, D. ?opu, B. Sarac, J.H. Yi, J. Tan, P. Gao, J. Eckert. Stability, elasticity and electronic structures of Co-Zr binary intermetallic compounds. Philosophical Magazine, 2020, 100 (7): 874-893.

[5]     关洪达, 李才巨*, 高鹏, 彭巨擘, 李芳, 鲍庆煌, 关一凡, 易健宏. 材料高通量制备与表征技术研究进展.稀有金属材料与工程, 2019,48(12): 4131-4140.

[6]     D. Qu, C. Li, L. Bao, Z. Kong, Y. Duan*. Structural, electronic, and elastic properties of orthorhombic, hexagonal, and cubic Cu3Sn intermetallic compounds in Sn–Cu lead-free solder. Journal of Physics and Chemistry of Solids, 2020, 138: 109253.

[7]     Q. Dong, P. Song, J. Tan*, X.M. Qin, C.J. Li, P. Gao, Z.X. Feng*, M. Calin, J. Eckert. Non-isothermal crystallization kinetics of a Fe–Cr–Mo–B–C amorphous powder. Journal of Alloys and Compounds, 2020, 823: 153783.

[8]     L. Zhang, R. Bao*, J. Yi*, S. Guo, J. Tao, C. Li, D. Fang, Y. Liu, F. Li. Improving comprehensive performance of copper matrix composite by spray pyrolysis fabricated CNT/W reinforcement. Journal of Alloys and Compounds, 2020, 833: 154940.

2019

[1]     Z.Y. Xu, C.J. Li*, K.R. Li, J.H. Yi*, J.J. Tang, Q.X. Zhang, X.Q. Liu, R. Bao, X. Li.  Carbon nanotube-reinforced aluminum matrix composites enhanced by grain refinement and in situ precipitation. Journal of Materials Science, 2019, 54 (11): 8655-8664.

[2]     Z. Xu, C. Li*, X. Liu, J. Yi*, H. Guan, N. Li.    In situ Al4C3 nanorods and carbon nanotubes hybrid-reinforced aluminum matrix composites prepared by a novel two-step ball milling. Journal of Materials Research, 2019, 54 (11): 8655-8664..

[3]     X. Chen, J. Tao*, Y. Liu, R. Bao, F. Li, C. Li, J. Yi*.  Interface interaction and synergistic strengthening behavior in pure copper matrix composites reinforced with functionalized carbon nanotube-graphene hybrids. Carbon, 2019, 146: 736-755.

[4]     Q. Dong, Y.J. Pan, J. Tan*, X.M. Qin, C.J. Li, P. Gao, Z.X. Feng*, M. Calin, J. Eckert. A comparative study of glass-forming ability, crystallization kinetics and mechanical properties of Zr55Co25Al20 and Zr52Co25Al23 bulk metallic glasses. Journal of Alloys and Compounds, 2019, 785: 422-428.

[5]     K. Hua, D. Fang*, R. Bao, X. You, J. Tao, C. Li, Y. Liu, Z. Luo, J. Yi, Y. Shu.  Porous iron vanadate nanowire arrays on Ti foil as a high-performance lithium-ion battery. Applied Surface Science, 2019, 465: 1047-1054.

[6]     X. Wei, J. Tao*, Y. Liu, R. Bao, F. Li, D. Fang, C. Li, J. Yi. High strength and electrical conductivity of copper matrix composites reinforced by carbon nanotube-graphene oxide hybrids with hierarchical structure and nanoscale twins. Diamond and Related Materials, 2019, 99: 107537.

[7]     赵琪, 马俊宾, 谢明, 李才巨, 陶静梅, 鲍瑞, 刘意春*, 易健宏. 复合金属包覆碳纳米管的制备及电磁屏蔽性能. 稀有金属材料与工程, 2019, 48 (01): 249-253.

2018

[1]     X.Q. Liu, C.J. Li*, J.H. Yi*, K.G. Prashanth, N. Chawake, J.M. Tao, X. You, Y.C. Liu, J. Eckert.  Enhancing the interface bonding in carbon nanotubes reinforced Al matrix composites by the in situ formation of TiAl3 and TiC. Journal of Alloys and Compounds, 2018, 765: 98-105.

[2]     W. Lu, C. Li*, J. Yi, K. Li.  Stability and elastic properties of B2 CoX (X = Ti, Zr and Hf) intermetallic compounds as a function of pressure. Philosophical Magazine, 2018, 98 (3): 203-218.

[3]     X. Chen, J. Tao*, J. Yi, C. Li, R. Bao, Y. Liu, X. You, S. Tan.  Balancing the strength and ductility of carbon nanotubes reinforced copper matrix composites with microlaminated structure and interdiffusion interface. Materials Science and Engineering: A, 2018, 712: 790-793.

[4]     X. Chen, J. Tao*, J. Yi, Y. Liu, C. Li, R. Bao.  Strengthening behavior of carbon nanotube-graphene hybrids in copper matrix composites. Materials Science and Engineering: A, 2018, 718: 427-436.

[5]     X. Chen, J. Tao*, J. Yi, Y. Liu, R. Bao, C. Li. Electrodeposited Cu/buckypaper composites with high electrical conductivity and ampacity. Journal of Alloys and Compounds, 2018, 735 (Supplement C): 163-171.

[6]     X. Chen, J. Tao*, J. Yi, Y. Liu, R. Bao, C. Li, S. Tan, X. You.  Enhancing the strength of carbon nanotubes reinforced copper matrix composites by optimizing the interface structure and dispersion uniformity. Diamond & Related Materials, 2018, 88: 74-84.

[7]     P. Yang, X. You*, J. Yi*, D. Fang, R. Bao, T. Shen, Y. Liu, J. Tao, C. Li, S. Tan, S. Guo.  Simultaneous achievement of high strength, excellent ductility, and good electrical conductivity in carbon nanotube/copper composites. Journal of Alloys and Compounds, 2018, 752: 431-439.

[8]     P. Yang, X. You*, J. Yi*, D. Fang, R. Bao, T. Shen, Y. Liu, J. Tao, C. Li.   Influence of dispersion state of carbon nanotubes on electrical conductivity of copper matrix composites. Journal of Alloys and Compounds, 2018, 752: 376-380.

[9]     赵琪,马俊,谢明,李才巨,陶静梅,鲍瑞,刘意春*,易健宏. 超声喷雾化学镀法制备镀镍碳纳米管及其微波吸收性能[J] 复合材料学报,2018, 35 (1): 117-123.

2017

[1]     X. Liu, C. Li*, J. Eckert, K.G. Prashanth, O. Renk, L. Teng, Y. Liu, R. Bao, J. Tao, T. Shen, J. Yi*. Microstructure evolution and mechanical properties of carbon nanotubes reinforced Al matrix composites. Materials Characterization, 2017, 133: 122-132.

[2]     C.J. Li*, W.F. Lu, J. Tan, J.M. Tao, J.H. Yi, Q.X. Zhang, Y. Xi. Microstructure and mechanical properties of Zr-Co-Al alloys prepared by rapid solidification. Journal of Materials Research. 2017, 32 (13): 2570-2577.

[3]     W.F. Lu, C.J. Li*, B. Sarac, D. ?opu, J.H. Yi, J. Tan, M. Stoica, J. Eckert. Structural, elastic and electronic properties of CoZr in B2 and B33 structures under high pressure. Journal of Alloys and Compounds, 2017, 705: 445-455.

[4]     A. Shen, D. Zhao, W. Sun, J. Liu*, C. Li*. Elastocaloric effect in a Co50Ni20Ga30 single crystal. Scripta Materialia, 2017, 127: 1-5.

[5]     L. Liu, R. Bao*, J. Yi*, C. Li, J. Tao, Y. Liu, S. Tan, X. You. Well-dispersion of CNTs and enhanced mechanical properties in CNTs/Cu-Ti composites fabricated by Molecular Level Mixing. Journal of Alloys and Compounds, 2017, 726: 81-87.

[6]     B. Cheng, R. Bao*, J. Yi*, C. Li, J. Tao, Y. Liu, S. Tan, X. You. Interface optimization of CNT/Cu composite by forming TiC nanoprecipitation and low interface energy structure via spark plasma sintering. Journal of Alloys and Compounds, 2017, 722: 852-858.

2016

[1]     C. Li*, X. Liu, J. Yi*, L. Teng, R. Bao, J. Tan, C. Yang, Z. Zou. Effects of sintering parameters on the microstructure and mechanical properties of carbon nanotubes reinforced aluminum matrix composites. Journal of Materials Research, 2016, 31 (23): 3757-3765.

[2]     , 张淇萱, 李才巨*, 谭军, 朱心昆, 王刚, 易健宏. Mo 离子注入对纯铜表面纳米层稳定性的影响. 材料工程, 2016, 44 (8): 40-45.

[3]     杨超, 李才巨*, 易健宏, 邹舟, 鲍瑞, 朱心昆. 碳纳米管在铝基复合材料中分散的研究进展. 材料导报, 2016, 30 (9): 141-147.

[4]     李翠红, 李才巨*, 易健宏, 鲍瑞, 邹舟, 沈韬, 陶静梅, 刘意春. MWCNTs特征对MWCNTs/Al复合材料组织及性能的影响. 粉末冶金材料科学与工程, 2016, 21 (3): 508-514.

2015

[1]     X.M. Qin, J. Tan*, C.J. Li, X.C. Wang, Y.H. Jiang, R. Zhou. On the formation, mechanical properties and crystallization behaviors of a Zr56Co24Al20 bulk metallic glass. Journal of Alloys and Compounds, 2015, 647: 204-208.

[2]     易健宏*, 鲍瑞, 李才巨, 沈韬, 刘意春, 陶静梅, 谈松林, 游昕. 碳纳米管增强CuAl基复合材料的研究进展. 中国有色金属学报, 2015, 25 (5): 1209-1219.

[3]     邢忠义*, 李才巨. 新型汽车发动机用纳米铜的磨损机制分析. 铸造技术, 2015, 36 (2): 290-292.

2014

[1]     滕龙, 李才巨*, 袁倩, 张淇萱, , 李翠红, 鲍瑞, 朱心昆. 碳纳米管增强铜基复合材料的研究进展. 材料导报, 2014, 28 (7): 16-19.

[2]     J.M. Tao, M.C. Xu, C.J. Li, X.K. Zhu*. Influence of plastic deformation on evolution of defect structures, microhardness and electrical conductivity of copper. Materials Technology, 2014, 27 (1): 197-202.

[3]     B. Cai, Y. Long, C. Wen, Y. Gong, C. Li, J. Tao, X. Zhu*. Role of stacking fault energy and strain rate in strengthening of Cu and Cu–Al alloys. Journal of Materials Research, 2014, 29 (16): 1747-1754.

2013

[1]     C.J. Li, J. Tan*, G. Wang, J. Bednar?ík, X.K. Zhu, Y. Zhang, M. Stoica, U. Kühn, J. Eckert. Enhanced strength and transformation-induced plasticity in rapidly solidified Zr-Co-(Al) alloys. Scripta Materialia, 2013, 68: 897–900.

[2]     C.J. Li, J. Tan*, X.K. Zhu, Y. Zhang, M. Stoica, U. Kühn, J. Eckert. On the transformation-induced work-hardening behavior of Zr47.5Co47.5Al5 ultrafine-grained alloy. Intermetallics, 2013, 35: 116-119.

[3]     C.J. Li*, Q.X. Zhang, Q. Yuan, J. Tan, L. Teng, G. Chen, T.L. Chen. Nanocrystalline Cu90Nb10 Alloy Produced by Mechanical Alloying, the 3rd International Conference on Advanced Engineering Materials and Technology (AEMT 2013), Zhangjiajie, P. R. China, 2013, 5.11-5.12

[4]     崔黎辉,沈俊昶,苏航,李才巨*. 10CrNi3MoV薄板性能研究热加工工艺. 2013, 42(6): 51-53.

[5]     崔黎辉,沈俊昶,苏航,田景云,李才巨*. 10CrNi3MoV钢焊接接头低温韧性的研究,热加工工艺,2013, 42(2): 191-195.

[6]     J. Tan*, F.S. Pan, C.J. Li, J.F. Wang, J. Eckert. Effect of Fe on Crystallization Process of Zr-Co-Al-(Fe) Bulk Metallic Glasses. Materials Science Forum, 2013, 745-746: 734-739.

[7]     X.X. Wu, X.Y. San, Y.L. Gong, L.P. Chen, C.J. Li, X.K. Zhu*. Studies on strength and ductility of Cu–Zn alloys by stress relaxation. Materials & Design, 2013, 47 (9): 295-299.

2012

[1]     汤金金, 李才巨*, 朱心昆. 碳纳米管增强铝基复合材料的界面研究进展. 材料导报, 2012, 26 (11): 149-152.

[2]     X.Y. San, X.G. Liang, L.P. Cheng, C.J. Li, X.K. Zhu*. Temperature effect on mechanical properties of Cu and Cu alloys. Materials & Design, 2012, 35: 480-483.

2011

[1]     C.J. Li*, X.K. Zhu, J.M. Tao, H.L. Tang, T.L. Chen. Bulk nanocrystalline Cu produced by high-Energy ball milling. Materials Science Forum, 2011, 682: 25-32.

[2]     J.M. Tao, D. Li, C.J. Li, X.K. Zhu *. Influence of stacking fault energy on defect structures and microhardness of Cu and Cu alloys. Journal of Nanoscience & Nanotechnology, 2011, 11 (12): 10967.

[3]     J. Tan *, Y. Zhang, B.A. Sun, M. Stoica, C.J. Li, K.K. Song, U. Ku?hn, F.S. Pan, J. Eckert. Correlation between internal states and plasticity in bulk metallic glass. Applied Physics Letters, 2011, 98 (15): 151906.

 

近年授权专利 (Authorized Patents)

  • 授权发明专利

[1]     李才巨,杨超,易健宏,沈韬,鲍瑞,刘意春,陶静梅,谈松林,游昕,李凤仙. 一种碳纳米管增强铝基多层复合材料的制备方法. 2016.03.02中国发明专利ZL201610115738.1

[2]     李才巨,刘孝青,易健宏,汤金金,朱心昆,陶静梅. 一种碳纳米管增强铝基复合材料的制备方法. 2016.03.02中国发明专利ZL201610115737.7

[3]     李才巨,谭军,袁倩,朱心昆. 一种蓝宝石晶体用高纯氧化铝的提纯方法. 2013.12.02,中国发明专利ZL201310626736.5,

[4]     李才巨,朱心昆,赵昆渝,陶静梅,陈铁力. 利用机械合金化制备(TiB2+TiC)弥散强化铜基复合材料的方法. 2009.11.11,中国发明专利, ZL200910095179.2

[5]     朱心昆,李才巨赵昆渝,颜丙勇,陶静梅,陈铁力. 机械合金化合成制备二硼化钛弥散强化铜基复合材料的方法,2009.09.11中国发明专利ZL200910095176.9

[6]     鲍瑞,刘亮,易健宏,李才巨,刘意春,李凤仙,陶静梅,游昕,谈松林. 一种光催化用负载纳米氧化亚铜颗粒的碳纳米管-石墨烯材料的制备方法. 2017.05.10, 中国发明专利ZL201710002327.6

[7]     鲍瑞,郑佳,易健宏,沈韬,李才巨,刘意春,游昕,谈松林,李凤仙,张家敏.一种微波烧结制备碳纳米管增强铜基复合材料的方法. 2014.12.30中国发明专利ZL201410838790.0

[8]     易健宏,刘警峰,张正富,甘国友,李才巨,鲍瑞,刘意春. 一种纳米花状锂离子电池负极材料的制备方法. 2020.04.07中国发明专利 ZL2017105728061

[9]     刘意春,赵琪,谢明,贾璐,沈韬,李才巨,鲍瑞,陶静梅,谈松林,游昕,易健宏. 一种碳纳米管表面均匀包覆金属银的方法及装置. 2017.01.04中国发明专利ZL201610868742.5

[10]刘意春,赵琪,谢明,贾璐,沈韬,李才巨,鲍瑞,陶静梅,谈松林,游昕,易健宏. 一种制备纳米银的方法. 2019.01.04中国发明专利 ZL201710206932.5

[11]陶静梅,陈小丰,易健宏,鲍瑞,李才巨,刘意春,游昕,谈松林,李凤仙. 一种碳纳米管增强铜基复合材料的制备方法. 2018.01.16中国发明专利 ZL201710699705.0

[12]刘意春,汪从珍,马俊宾,陶静梅,鲍瑞,谈松林,游昕,方东,李才巨,易健宏. 一种多孔泡沫增强金属复合材料及其制备方法. 2019.06.21中国发明专利ZL201910150704.X

  • 授权实用新型专利

[1]     李才巨,卢文飞,易健宏,郗,滕龙,张淇萱,邹舟,李小红,马玉琼. 一种用于柱状试样磨抛的夹具. 2016.09.14中国实用新型专利,ZL201620208595.4

[2]     刘意春,赵琪,谢明,贾璐,沈韬,李才巨,鲍瑞,陶静梅,谈松林,张家敏,易健宏. 一种碳纳米管表面均匀包覆金属银的装置,2017.05.03中国实用新型专利,ZL201621096372.X

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