轨道交通特种材料研究所

基本情况

      

轨道交通特种材料研究所共有教师5人,其中包括教授4人,副教授1人,目前共有博士研究生14人,硕士研究生24人。

研究所以特种轨道交通工程材料为研究特色,重点开展轨道车辆关键零部件新材料与新技术的开发和应用研究工作。在高速列车新型碳化物系受电弓滑板、高速载流摩擦磨损、高铁制动材料、轨道交通自愈合材料、多孔吸声降噪材料等研究领域处于国际先进水平。

研究所目前拥有真空烧结炉、热压烧结炉、镁铝合金熔炼搅拌炉、大型载流高速摩擦磨损试验台、万能材料试验机、冷压成型机、马弗炉、高能球磨机、激光粒度分析仪、电阻率测试仪等用于材料制备、性能测试和分析的相关设备。

 

 

 

  


 

研究方向

     

轨道交通材料研究所的主要研究方向是高速弓网材料、高铁制动盘-闸片材料、吸声降噪材料、轨道交通自愈合材料、新型真空触头材料等高性能金属陶瓷复合材料。

1、 高速弓网材料

    在国际上率先将Mn+1ACn系三元层状碳化物陶瓷应用于导电耐磨材料领域,发明了碳化物系新型受电弓滑板,并深入开展了高速弓网材料的力-热-电流耦合场本构关系及其相关理论研究,获得教育部高等学校技术发明奖二等奖和北京市科学技术奖二等奖。

2、 高铁制动盘-闸片材料

    研发与新一代碳陶材料高铁制动盘匹配的新型复合闸片材料,研究闸片材料组织性能调控、服役损伤机理及其与碳陶材料配对摩擦学行为规律及摩擦表面自适应理论,开发三维网络陶瓷增强铁基新型制动盘材料。

3、 多孔吸声降噪材料及相变复合材料 

    将多种发泡方法与凝胶注模成型工艺相结合,可在较大范围内对氧化物、碳化物等多孔无机材料的孔隙率及气孔尺寸进行调节,所得多孔材料在吸声降噪领域有着广阔的应用前景;以多孔材料为载体,开发新型相变复合材料,可广泛应用于节能、温控等领域。 

4、 轨道交通自愈合材料

针对裂纹导致构件失效问题,开发了具有裂纹自愈合功能的轨道交通关键材料,使其在使用条件下能愈合一定尺寸的裂纹。愈合后的材料性能接近甚至高于原始材料,从而提高构件的使用安全性和服役寿命,降低构件的后期维修成本。

5、 高性能金属陶瓷复合材料

    在多种高纯度Mn+1ACn碳化物粉体合成的基础上,将其与铜、镁、铝、铁等金属复合,制成各具特色的结构功能一体化金属陶瓷复合材料,满足不同的应用需求,例如新型铜基真空触头材料、镁铝基发动机缸体衬套材料、锌基滑动轴承材料、铝硅合金改性及其成型技术等。

科研成果与荣誉

     

序号

获奖成果名称

奖励名称

奖励等级

颁奖单位

获奖年份

1

高纯度钛硅碳系陶瓷原料的合成与应用技术

教育部高等学校技术发明奖

二等奖

教育部

2008

2

一种制备薄片形陶瓷元件坯片的方法和专用模具

中国专利奖

优秀奖

国家知识产权局

2011

 

 

序号

获奖人

荣誉名称

1

李世波

2012年詹天佑铁道科学技术奖专项奖

2

黄振莺

2010年全国百篇优秀博士学位论文提名奖

 

代表性科研项目

 

研究所近5年承担国家973项目子项1项,科技支撑子项1项,863项目2项,国家自然科学基金面上项目6项、青年基金项目2项,北京市协同创新实验室项目1项,北京市自然基金1项,教育部留学归国人员科研启动基金1项,教育部博士点新教师基金1项,国际合作项目3项,中央高校基本科研业务费3项。

序号

项目名称

项目来源

1

高速弓网载流滑动失效机制与材料设计

973项目子项

2

高速弓网接触副研究

国家科技支撑项目子项

3

高速铁路接触网线与受电弓滑板及其适配性研究

863项目

4

Ti3SiC2系材料在高速列车受电弓滑板的应用

863项目

5

MAX陶瓷抗热震和耐烧蚀性能及其机制研究

国家自然科学面上基金

6

Ti3AlC2增强锌基复合材料的界面结构与摩擦学特性研究

国家自然科学面上基金

7

三元碳化物陶瓷成分设计及裂纹自愈合研究

国家自然科学面上基金

8

多元掺杂锰酸镧陶瓷的相变及红外发射特性研究

国家自然科学面上基金

9

Ti3SiC2-Cu新型真空触头材料电接触特性及失效机理研究

国家自然科学面上基金

10

钛硅碳/钛铝碳复相导电陶瓷及其带电摩擦学特性

国家自然科学面上基金

11

高强超延展性纳米MX相增强Cu基复合材料的研究

国家自然科学青年基金

12

超轻、高强钙长石基多孔隔热陶瓷的显微结构控制及隔热

国家自然科学青年基金

13

高铁制动盘用耐热合金及复合材料研究

北京市协同创新实验室项目

14

新型梯度多孔吸声隔音陶瓷的设计及性能

北京市自然科学基金面上项目

15

新型Cr2AlC陶瓷高温氧化及裂纹自愈合行为研究

教育部留学归国人员科研启动基金

16

Ti3SiC2系高速列车受电弓滑板材料的载流摩擦学机理研究

教育部博士点新教师基金

17

短纤维增强MAX相复合材料的合成与性能研究

国际合作项目

18

Synthesis and Characterization of Cr2AlC and solid solution

国际合作项目

19

MAX材料的制备

国际合作项目

20

超轻高强多孔陶瓷吸声隔音材料的组分及结构设计

中央高校基本科研业务费

21

汽车尾气净化用新型导电多孔陶瓷的制备与性能

中央高校基本科研业务费

22

新型高速列车受电弓滑板材料的载流磨损机理及其匹配性

中央高校基本科研业务费

代表性论著

  著作:  黄振莺,翟洪祥,《Mn+1AXn Phases: Microstructure, Properties and Applications》中一章“Tribological Characteristics and Wear Mechanisms in Ti3SiC2 and Ti3AlC2 ”,NOVA,ISBN:978-1-61324-182,2012年

论文:

2019

1.      Li Runfeng , Zhou Yang*, Duan Xili. A novel composite phase change material with paraffin wax in tailings porous ceramics. Applied Thermal Engineering, 2019, 151: 115~123

2.      Li Runfeng, Zhou Yang*, Li Cuiwei, Li Shibo and Huang Zhenying. Recycling of industrial waste iron tailings in porous bricks with low thermal conductivity. Construction and Building Materials, 2019, 213: 43-50

3.      蒋三生周洋一种卫星导航天线罩凝胶成型模具的设计与3D打印陶瓷学报, 2019, 40 (2): 217~222

4.      Jipeng Jiang, Shibo Li*, Wenbo Yu, Yang Zhou. Microstructural characterization and abrasive wear resistance of a high chromium white iron composite reinforced with in situ formed TiCx. Materials Chemistry and Physics. 2019; 224: 169-174.

5.      Jipeng Jiang, Shibo Li*, Weiwei Zhang, Wenbo Yu, Yang Zhou. In situ formed TiCx in high chromium white iron composites: formation mechanism and influencing factors. J Alloys Compd. 2019; 788: 873-880.

6.      Xiaogang Lu, Shibo Li*, Weiwei Zhang, Wenbo Yu, Yang Zhou. Thermal shock behavior of a nanolaminated ternary boride: MoAlB. Ceramics International, 2019; 45: 9386-9389.

7.      Xiaogang Lu, Shibo Li*, Weiwei ZhangBoxiang Yao, Wenbo Yu, Yang Zhou. Crack healing behavior of a MAB phase: MoAlB. J Euro Ceramic Soc, 39 (2019) 4023-4028.

8.      Shujun Hu, Shibo Li*, Weimin Xu, Jing Zhang, Yang Zhou, Zhenxiang Cheng. Rapid preparation, thermal stability and electromagnetic interference shielding properties of two-dimensional Ti3C2 MXene. Ceramics International, 2019; 45: 19902-19909.

9.   Wenqiang Hu, Zhengying Huang*, Guangming Zhen, Yuanbo Wang, Cong Lei, Leping Cai, Hongxiang Zhai, Yang Zhou, Optimizing the microstructure and mechanical behaviors of in-situ TiC-γ′/Ni composites by subsequent thermal treatment. Journal of Alloys and Compounds 774 (2019) pp. 739-747

10.   Leping Cai , Zhengying Huang*, Wenqiang Hu, Cong Lei, Hongxiang Zhai, Yang ZhouDry sliding behaviors and friction surface characterization of Ti3Al0.8Si0.2Sn0.2C2 solid solution against S45C steel. Ceramics International 45(2019) pp. 2103-2110

11.   Shaoshuai Wo, Zhengying Huang*, Leping Cai, Wenqiang Hu, Yuanbo Wang, Yang Zhou, Hongxiang Zhai. High strengthening effects and excellent wear resistance of Ti3Al(Si)C2 solid solutions. International Journal of Applied Ceramic Technology, 16(2019): 2398-2408

12.   Cong Lei, Hongxiang Zhai*, Zhenying Huang, Wenqiang Hu, Leping Cai, Siyu Chen, Wenbo Yu, Yang Zhou, Fabrication, microstructure and mechanical properties of co-continuous TiCx/Cu-Cu4Ti composites prepared by pressureless-infiltration method. Ceramics International 45(2019) pp.2932-2939

13.   Wu Linghao, Li Cuiwei, Yangjing, Lihao, Fabrication and properties of porous anorthite/mullite ceramics with both high porosity and high strength, International Journal of Applied Ceramic Technology, 2019, 2019,16(6): 2197-2205.

14.   李翠伟,邓娜娜,武令豪,李昊,汪长安,泡沫注凝法制备孔结构可调的氧化锆多孔陶瓷,硅酸盐学报,2019,09:1214-1221.

15.   Li HaoLi CuiweiWu LinghaoPorous cordierite ceramics prepared by foam-gelcasting technique: Phase evolution and propertiesJournal of Alloys and Compounds 2019791: 690-699.

16.   Wenbo Yu*X. Li, M. Vallet, L. Tian “High temperature damping behavior and dynamic Young’s modulus of magnesium matrix composite reinforced by Ti2AlC MAX phase particles”, Mechanics of Materials, 129(2019), P.246-253

17.   Wenbo Yu*D. Chen, L. Tian , H. Zhao, X. Wang“Self-lubricate and anisotropic wear behavior of AZ91D magnesium alloy reinforced with ternary Ti2AlC MAX phases”Journal of Materials Science & Technology,35(2019), P.275-284

2018

1.      Zheng Yong, Zhou Yang*, Feng Yide, et al. Synthesis and mechanical properties of TiC-Fe interpenetrating phase composites fabricated by infiltration process. Ceramics International, 2018, 44: 21742~21749 (SCI, IF=3.057, WOS: 000448226900146)

2.      Li Haiyan, Zhou Yang*, Cui Ao, Li Shibo, Huang Zhenying and Zhai Hongxiang. Effect of Ti3AlC2 Content on Mechanical Properties of Ti3AlC2/ZA27 Composites. Rare Metal Materials and Engineering, 2018, 47(4): 1069-1074

3.      李润丰周洋*, 郑涌孙智勇李翠伟黄振莺烧结温度对铁尾矿多孔陶瓷结构及性能的影响稀有金属材料与工程, 2018, 47 (Suppl.1): 103~107

4.      李润丰周洋*, 李世波李翠伟黄振莺北京地区细颗粒铁尾矿烧结过程与机理研究建筑材料学报, 2018, 21 (4): 672~677

5.      蒋三生周洋基于凝胶注模成型的Si3N4/Si坯体制备及性能分析陶瓷学报, 2018, 39 (3): 322~326

6.      Jie Liu, Shibo Li*, Boxiang Yao, Shujun Hu, Jing Zhang, Wenbo Yu, Yang Zhou, Rapid synthesis and characterization of a Fe2AlB2 nanolaminated compound J Alloys Compd, 2018; 766: 488-497

7.      Jie Liu, Shibo Li*, Boxiang Yao, Jing Zhang, Xiaogang Lu, Yang Zhou, Thermal stability and thermal shock behavior of Fe2AlB2, Ceram Int. 2018; 44(13): 16035-16039

Jing Zhang, Shibo Li*, Shujun Hu, Yang Zhou, Chemical stability of Ti3C2 MXene with Al in the temperature range 500-700 ºC, Materials, 2018, 11(10), 1979

8.      Wenqiang Hu, Zhengying Huang*, Leping Cai, Cong Lei, Wenbo Yu, Hongxiang Zhai, Shaoshuai Wo, Xinkang Li, Yang Zhou. Microstructural characterization and mechanical properties of a novel TiC-based cermet bonded with Ni3(Al,Ti) and NiAl duplexalloy.  Materials Characterization 135 (2018) PP295-302.

9.      Leping Cai , Zhengying Huang*, Wenqiang Hu, Cong Lei, Shaoshuai Wo, Xinkang Li, Hongxiang Zhai, Yang Zhou. Fabrication and microstructure of a new ternary solid solution of Ti3Al0.8Si0.2Sn0.2C2 with high solid solution strengthening effect. Ceramics International 44 (2018) pp. 9593-9600.

10.   Wenqiang Hu, Zhengying Huang*, Leping Cai, Cong Lei, Hongxiang Zhai, Shaoshuai Wo, Xinkang Li. In-situ TiC and γ′-Ni3(Al,Ti) triggered microstructural modification and strengthening of Ni matrix composite by reactive hot-press sintering pure Ni and Ti2AlC precursor. Journal of Alloys and Compounds747C (2018) pp. 1043-1052.

11.   Leping Cai, Zhenying Huang*, Wenqiang Hu, Cong Lei, Shaoshuai Wo, Xinkang Li, Hongxiang Zhai. The synthesis and mechanical properties of high pure Ti2Al(Sn)C solid solution. International Journal of Applied Ceramic Technology, 15[5]2018):1212-1221.

12.   Wenqiang Hu, Zhengying Huang*, Leping Cai, Cong Lei, Hongxiang Zhai, Yang Zhou, Exploring the interfacial state and tensile behaviors in nickel matrix composite with in-situ TiC and γ′-Ni3(Al,Ti) reinforcements. Journal of Alloys and Compounds 765 (2018) pp. 987-993.

13.   胡文强,黄振莺*,翟洪祥,蔡乐平,雷聪,郝素明,颜世韬,周洋,原位生成TiCx增强Ni合金复合材料的制备及力学性能,稀有金属材料与工程,vol.47,Suppl.1, 20187月,pp155-158.

14.   陈路路,翟洪祥*,黄振莺,雷聪,周洋,TiCx含量对热压制备TiCx-Fe基复合材料力学性能的影响,稀有金属材料与工程,vol.47,Suppl.1, 20187月,pp407-411.

15.   Chen Kepi, Pei Xintong, Lei Haoran, Li Cuiwei, Zhang Xiaowen, An Li-nan. A five-component entropy-stabilized fluorite oxide. Journal of the European Ceramics Society,2018,11(38): 4161-4164.

16.    雪,李翠伟,武令豪,刘 硕,李 昊,邓娜娜,汪长安,莫来石晶须的合成与分散,现代技术陶瓷,2018,39(2):122-130.

17.   武令豪,李翠伟,田雪,汪长安,发泡剂浓度对钙长石多孔陶瓷结构与性能的影响稀有金属材料与工程, 2018, 47:147-150

18.   Wenbo Yu*, H. Zhao, X.Wang, X.Hu “Anisotropic mechanical and physical properties in textured Ti2AlC reinforced AZ91D magnesium composite”, J. Alloy Compd., 732(2018) P.894-901

19.   Wenbo Yu*H. Zhao, X.Wang, L.Wang, S.Xiong “Synthesis and characterization of textured Ti2AlC reinforced magnesium composite”, J. Alloy Compd., 730(2018) P.191-195

20.   Wenbo Yu*G.Liu, Joong Lee “A novel flexible micro-ratchet/ZnO nano-rods surface with rapid recovery icephobic performance”  Journal of Industrial and Engineering Chemistry, 2018,P.

21.   Wenbo Yu*H. Zhao, L.Wang, S.Xiong “The influence of T6 treatment on fracture behavior of hypereutectic Al–Si HPDC casting alloy”, J. Alloy Compd., 731(2018) P.444-451 


2017

[1] Zheng Yong, Zhou Yang, Li Runfeng, Wang Jiaqi, Chen Lulu, Li Shibo, Preparation and Mechanical Properties of TiC-Fe Cermets and TiC-Fe/Fe Bilayer Composites, Journal of Materials Engineering and Performance, 2017, 26 (10): 4933~4939.

[2] 郑涌, 周洋, 王嘉琪, 李鸿宇, 李世波, 黄振莺, 李翠伟, 翟洪祥,高体积含量TiC/Fe复合材料的制备及力学性能,稀有金属材料与工程,2017, 46 (9): 2673~2678

[3] 赖建宏, 周洋, 郑涌, 王嘉琪, 黄振莺, 李世波, 翟洪祥, 双连续TiC/Fe复合材料的制备和性能, 材料研究学报, 2017, 31 (10): 743~750.

[4]Shujun Hu, Shibo Li, Haolin Li, Yang Zhou, Large-scale growth of TiB2 hexagonal sheets, Journal of Alloys and Compounds, 2017; 690:930-935

[5] Shibo Li*, Linquan Zhang, Wenbo Yu, Yang Zhou, Precipitation induced crack healing in a Ti2SnC ceramic in vacuum, Ceram Int., 2017; 43(9): 6963-6966.

[6] Linquan Zhang, Shibo Li*, Xiaodong Chen, Yang Zhou, Abnormal thermal shock behavior in electrical conductivity of Ti2SnC, Progress in Natural Science: Materials International, 201727: 527-530

[7] Jipeng Jiang, Shibo Li*, Haolin Li, Yang Zhou,Effect of in situ formed TiCx grains on the microstructural modification of high Cr white iron,Journal of Alloys and Compounds, 2017; 726: 430-436.

[8]Cuiwei Li*, Yao Han, Linghao Wu, Kepi Chen, Li-nan An, Fabrication and properties of porous anorthite ceramics with modelling pore structure, Materials Letters, 2017, 190:95-98.

[9] Cuiwei Li*, Yao Han, Linghao Wu, Chang-an WangSynthesis and growth of anorthite crystal during in situ preparation of porous anorthite ceramics by foam-gelcastingInternational Journal of Applied Ceramic Technology2017, 14:957-962.

[10]Wenqiang Hu, Zhengying Huang*, Leping Cai, Cong Lei, Wenbo Yu, Hongxiang Zhai, Microstructural characterization and mechanical properties of a novel TiC-based cermet bonded with Ni3(Al,Ti) and NiAl duplexalloy, Materials Characterization, 2018,135: 295-302.

[11] WenjuanWang, HongxiangZhai*, LuluChen, Yang Zhou, ZhenyingHuang, GuopingBei, Peter Greil. Sintering and properties of mechanical alloyed Ti3AlC2-Cu composites. Materials Science & Engineering A 685(2017) 154–158.

[12] Wenqiang Hu, Zhengying Huang*, Leping Cai, Cong Lei, Hongxiang Zhai, Suming Hao, Wenbo Yu, Yang Zhou. Preparation and mechanical properties of TiCx-Ni3(Al,Ti)/Ni composites synthesized from Ni alloy and Ti3AlC2 powders. Materials Science & Engineering A 697(2017) 48–54.

[13] Leping Cai, Zhenying Huang*, Wenqiang Hu, Suming Hao, Hongxiang Zhai, Yang Zhou, Fabrication, mechanical properties, and tribological behaviors of Ti2AlC and Ti2AlSn0.2C solid solutions. Journal of Advanced Ceramics 2017, 6(2):90-99.

[14]Wenbo Yu*, Hongbin Zhao, ZhenyingHuang, Shibo Li, HongxiangZhai, S.Xiong, Microstructure evolution and bonding mechanism of Ti2SnC-Ti6Al4V joint by using Cu pure foil interlayerMaterials Characterization2017,127:  53-59


2016

[1]Li Hai-Yan, Zhou Yang, Cui Ao, Zheng Yong, Huang Zhen-Ying, Zhai, Ti3SiC2 Reinforced ZA27 Alloy Composites with Enhanced Mechanical Properties, Int. J. Appl. Ceram. Technol, 2016, 13 (4): 636~643.

[2]李海燕, 周洋, 路金蓉, 郑涌, 陈晨, 李世波, 黄振莺, 李翠伟, 翟洪祥,烧结温度对Ti3AlC2/ ZA27复合材料性能的影响,稀有金属材料与工程,2016, 45 (1): 212~216

[3]  WenjuanWang, HongxiangZhai*, LuluChen, ZhenyingHuang, GuopingBei, Peter Greil Preparation and mechanical properties of TiCx–(NiCu)3Al–CuNi2Ti–Ni hybrid composites by reactive pressureless sintering pre-alloyed Cu/Ti3AlC2 and Ni as precursor.  Materials Science & Engineering A 670(2016) 351–356.

[4] Haolin Li, Shibo Li*, Linquan Zhang, Yang Zhou,Synthesis and ultra-high temperature ablation behavior of a ZrC/Cr2AlC composite, Ceramics International 2016; 42(5):5686-5692.

[5] Shibo Li, Guoping Bei, Xiaodong Chen, Linquan Zhang, Yang Zhou, Mirza Mackovic, Erdmann Spiecker and Peter Greil,Crack healing induced electrical and mechanical properties recovery in a Ti2SnC ceramic,J Euro Ceram Soc2016; 36(1): 25-32.

[6] Haolin Li, Shibo Li, Xuesong Du, Peiwei Bao, Yang Zhou, Thermal shock behavior of Cr2AlC in different quenching media, Mater Lett, 2016 167 131-133.

[7]Cuiwei Li*, Chao Bian,Yao Han, Chang-an Wang, Li-nan An,Mullite whisker reinforced porous anorthite ceramics with low thermal conductivity and high strength,Journal of the European Ceramic Society2016, 36:761-765.

2015

[1]Haiyan Li, Yang Zhou, Chen Chen, Yong Zheng, Jinrong Lu, Shibo Li and Zhenying Huang. Microstructure and mechanical properties of Zn-based composites reinforced by Ti3AlC2 [J]. Advances in Applied Ceramics, 2015, 114 (6): 315~320

[2]Jinrong Lu, Yang Zhou*, Yong Zheng et al. Interface structure and wetting behavior of a Cu/Ti3SiC2 system [J]. Advances in Applied Ceramics, 2015, 114(1):39-44.

[3]罗潇,翟洪祥*,黄振莺,位兴民. 双连续相Ti3AlC2/Cu复合材料的制备及性能研究 [J]. 稀有金属材料与工程, 2015,44[1].: 825-828.

[4] Mengqi Li, Hongxiang Zhai*, Zhenying Huang, Xiaohan Liu, Yang Zhou, Shibo Li, Cuiwei Li. Tensile behavior and strengthening mechanism in ultrafine TiC0.5 particle reinforced Cu-Al matrix composites [J]. Journal of Alloys and Compounds, 2015, 628:186-194.

[5] Shibo Li, Shujun Hu, Ay Ching Hee, Yue Zhao,Surface modification of a Ti2AlC soft ceramic by plasma nitriding treatment,Surface and Coatings Technology2015, 281:164-168

[6] Hao Xu, Zhengying Huang*, Hongxiang Zhai, Mengqi Li, Xiaohan Liu, Yang Zhou. Fabrication and tribological behaviors of Ti3Al0.8Sn0.4C2 solid solution by two-time hot-pressing method [J]. International Journal of Applied Ceramic Technology, 2015,12[4]:783-789.

[7]Zhenying Huang*, Hao Xu, Hongxiang Zhai, Yazheng Wang, Yang Zhou. Strengthening and tribological surface self-adaptability of Ti3AlC2 by incorporation of Sn to form Ti3Al(Sn)C2 solid solutions [J]. Ceramics International, 2015, 41[3]:3701-3709.

[8] Wenjuan Wang, Cuiwei Li*, Hongxiang Zhai, Chang-an Wang. Preparation of High-Strength Ti3AlC2 by Spark Plasma Sintering [J]. International Journal of Applied Ceramic Technology, 2015, 12:E126E131.


2014:

1.   Shibo Li*, Haolin Li, Yang Zhou, Hongxiang Zhai. Mechanism for abnormal thermal shock behaviour of Cr2AlC. J Eur Ceram Soc, 2014; May, 34(5): 1083-1088.

2.   Haolin Li, Shibo Li*, Xiaodong Chen, Yang Zhou. Spontaneous pulverization of Al4C3 containing MAX bulk materials at room temperature. Advances in Applied Ceramics: Structural, Functional and Bioceramics. 2014; 113(3): 184-188.

3Zhenying Huang*, Joel Bonneville, Hongxiang Zhai, Joel Bonneville, Veronique Gauthier-Brunet, Sylvain Dubois. Microstructural characterization and compression properties of TiC0.61/Cu(Al) composite synthesized from Cu and Ti3AlC2 powders. Journal of Alloys and Compounds,2014,602:  53–57.

4Zhenying Huang*, Hongxiang Zhai, Mengqi Li et.al. Friction Behaviors and Effects on Current-Carrying Wear Characteristics of Bulk Ti3AlC2.Tribology Transactions, 2014, 57: 300-307.

5. Wenjuan Wang, Hongxiang Zhai*, Lin Chen, Zhenying Huang, Guoping Bei, Christoph Baumgärtner,Peter Greil. Preparation and mechanical properties of in situ TiCx-Ni (Si, Ti) alloy composites [J]. Materials Science and Engineering A, 2014, 616:214-218.

6. Haolin Li, Shibo Li*, Yang Zhou. Cyclic thermal shock and crack healing behavior of a Cr2AlC ceramic [J]. Materials Science and Engineering A, 2014, 607:525-529.

 7. 路金蓉,周洋*,李海燕,等. Cu/ Ti3SiC2体系润湿性及润湿过程的研究 [J]. 无机材料学报, 2014,29(12):1313- 1319.

 

 

2013年:

1. Shibo Li*, Xiaodong Chen, Yang Zhou, Guiming Song. Influence of grain size on high temperature oxidation behaviour of Cr2AlC ceramics. Ceramics International, 2013;39(3): 2715-2721.

2. S.B. Li*, L.O. Xiao, G.M. Song, W.G. Sloof, S. van der Zwaag. Oxidation and self-healing behavior of a fine-grained Cr2AlC ceramic. J Am Ceram Soc, 2013; 96(3):892-899.

3. Mengqi Li, Hongxiang Zhai*, Zhenying Huang et.al. Microstructure and mechanical properties of TiC0.5 reinforced copper matrixcomposites. Materials Science & Engineering A588(2013)335–339.

3. Chen XH , Zhai Hongxiang*, Wang WJ, Li SB, Huang ZY. A TiCx reinforced Fe (Al) matrix composite using in-situ reaction. Progress in Natural Science: Materials International. 2013,23 (1):13-7.

4. 陈新华,翟洪祥*,王文娟,黄振莺. 原位反应法制备Cr2 AlC-Fe 基复合材料(英文). 硅酸盐学报. 2013 (03):309-13.

5. Liu Qiuping, Zhou Yang* et.al. Improved photovoltaic performance of dye-sensitized solar cells (DSSC) by Zn+Mg co-doped TiO2 electrode. Electrochimica Acta, 201395201348-53

6. Liu Qiuping, Zhou Yang* et.al. Enhanced conversion efficiency of dye-sensitized titanium dioxide solar cells by Ca-doping. Journal of Alloys and Compounds, 2013,5482013161-165

7. Yao Han, Cuiwei Li* et.al. Porous anorthite ceramics with ultra-low thermal conductivity. Journal of the European Ceramic Society, 33 (2013) 2573–2578.

 8.李翠伟*,韩耀,陈筱媛,汪长安,烧结温度对多孔钛酸铝陶瓷结构和性能的影响,稀有金属材料与工程,201342: 868-372.

9.李翠伟*,杨凤坤,韩耀,汪长安,陈克丕,发泡剂对莫来石多孔陶瓷结构和性能的影响,稀有金属材料与工程, 2013, 42: 932-935.
10.Wang Wenjuan, Li Cuiwei*, Chen Kepi, Electrical, dielectric and mechanical properties of anovel Ti3AlC2/epoxyresinconductivecomposites, Materials Letters, 2013, 110:61–64.

11. 黄振莺*,许浩,翟洪祥,刘晓涵,Ti3Al1.2-xSnxC1.9x=0.1~0.4)固溶体材料的制备及性能,中国科技论文在线精品论文,2013,6[9]: 862-867.

2012

1.    Shibo Li*, Guiming Song, Cees Kwakernaak, Sybrand van der Zwaag, Willem G. Sloof. Multiple crack healing of a Ti2AlC ceramic. J Eur Ceram Soc, 2012; 32(8): 1813-1820.

2.    Shi-Bo Li*, Gui-Ming Song and Yang Zhou. A dense and fine-grained SiC/Ti3Si(Al)C2 composite and its high-temperature oxidation behavior. J EuroCeramSoc, 2012; 32(12): 3435-3444.

3.    Yang Fengkun, Li Cuiwei*, et al.  Effects of sintering temperature on properties of porous, Materials Letters 73 (2012) 36–39.

4.    Mengqi Li, Hongxiang Zhai* and Zhenying Huang. Single Phase Ti2AlC Powder Synthesized from Ti-Al-0.6~0.9TiC-0.1Sn Mixture. Key Engineering Materials Vols. 512-515 (2012) pp 28-31.

5.    Jinrong Lu, Yang Zhou*, et.al. Effects of sintering process on the properties of Ti3SiC2-Cu composite. Key Engineering Materials Vols. 512-515 (2012)

6.    Liu Qiuping, Zhouyang*, et.al. Charge transmission and recombination in the dye-sensitized solar cells based on Mn-doped TiO2. Key Engineering Materials Vols. 512-515 (2012)53-56

7.    Liu Qiuping, Zhouyang*, et.al. Photovoltaic Performance of Dye-Sensitized Solar Cells Based on Al-Doped TiO2 Thin Films. 物理化学学报, 282012591-595



2011

1. S.B. Li, W.B. Yu, H.X. Zhai, G.M. Song, W.G. Sloof and S. van der Zwaag. Mechanical properties of low temperature synthesized dense and fine grained Cr2AlC ceramics. J Eur Ceram Soc 2011; 31(1-2): 217-24.

2. L.O. Xiao, S.B. Li, G.M. Song, W.G. Sloof. Synthesis and thermal stability of Cr2AlC. J Eur Ceram Soc, 2011; 31(8): 1497-1502.

3. Liu Qiuping, Zhouyang*, et.al. Zinc-doping in TiO2 films to enhance photovoltaic performance of Dye- sensitized solar cells, Applied Mechanics and Materials,2011.

4. 朱剑锋,翟洪祥*,黄振莺,Ti3AlC2陶瓷的摩擦稳定性及其对载流磨损率的影响,高技术通讯21(2011) [1]: 106-110

5. 黄振莺,翟洪祥*,李萌启,Ti3AlC2 含量对热压制备Cu/Ti3AlC2复合材料的影响,稀有金属材料与工程,402011)增刊1529-532

6. Chen Xinhua, Zhai Hongxiang*, Song Pengfei and Huang Zhenying. Reaction Behavior of Ti3AlC2 with Fe at High Temperature. Rare Metal Materials and Engineering 2011, 40( S1) 499-502.

7. 林亚梅,李翠伟*等,莫来石加入量对多孔钙长石/莫来石多孔陶瓷结构与性能的影响,无机材料学报。2011-11.


2010

1.W.B. Yu, S.B. Li*, W.G. Sloof. Microstructure and mechanical properties of a Cr2Al(Si)C solid solution. Mater Sci Eng A 2010; 527(21-22): 5997-6001.

2. Huang Zhenying*, Zhai Hongxiang, Li Mengqi and Wang Wenjuan. Preparation and properties of a New Ti3C2-Cu(Al) Cermet Series. Advanced Materials Research, 105-106(2010): 79-82.

3. Zhenying Huang*, Hongxiang Zhai, Mengqi Li and Xinhua Chen. High performance of Sub-Micro-Layered Ti3C2/(Cu-Al) Cermets Prepared by In-situ Hot-extruding MethodMaterials Science Forum Vols.654-656(2010):2049-2052 .

4. Xinhua Chen, Hongxiang Zhai*, Shibo Li, Yang Zhou and Zhenying Huang. Preparation of Bulk Ti2AlC Using Ti3AlC2 Powders as a Starting Material. Advanced Materials Research, 105-106(2010): 83-86.

5. Zhang Hongbing, Zhai Hongxiang*, Zhou Yang and Huang Zhenying. Densifying Ti3AlC2/Cu Composites Using a Cold-Extruding and Temper Means. Advanced Materials Research, 105-106(2010): 87-89.

6. Li Cuiwei*, et.al. Preparation and mechanical properties of ZrB2-based ceramics using MoSi2 as sintering aids. Frontiers of Materials Science,2010

7. 周洋*,蒋三生等,反应烧结Si3N4透波陶瓷的制备与性能研究,材料工程,2010-12

8. 路金蓉,周洋*等,组分对Ti3SiC2/Cu复合材料性能的影响,材料工程,2010-12

9. 颜世韬,周洋*等,钙钛矿型La1-xBxMnO3(B=Sr,Ca)粉体及块体材料的制备研究,材料工程,2010-12.


2009

1.  Shi-Bo Li*, Guo-Ping Bei, Wei-Hua Xiang, Hong-Xiang Zhai, Yang Zhou and Cui-Wei Li. Controlling the Oriented Growth of Ti2SnC grains Using Carbon Fiber as a Reactive Template in the Ti-Sn-C Reaction System. Mater Res Bull. 2009; 44(5): 966–969.

2. 张华,翟洪祥*Ti3C2/Cu(Al)金属陶瓷的无焊料氩弧焊接。高技术通讯,(2009)18[8]:837-841

3. 黄振莺*,翟洪祥,李萌启,张华。原位热压反应制备高性能亚微米层状Ti3C2/Cu(Al)金属陶瓷。稀有金属材料与工程, 38 (2009): 487-490

4. 张华,翟洪祥*,黄振莺。Ti3AlC2Cu合金之间的电弧焊接。稀有金属材料与工程,38 (2009):510-513

5. 李翠伟*等,Ti3Si0.6Al0.6C1.98陶瓷的制备与性能,稀有金属材料与工程,38 (2009)


2008-2005

1.  Shi-Bo Li*, Wei-Hua Xiang, Hong-Xiang Zhai, Yang Zhou. Formation of a single-phase Ti3AlC2 from a mixture of Ti/Al/TiC powders with Sn as an additive. Mater Res Bull 2008;43:2092-2099.

2. Shi-Bo Li*, Wei-Hua Xiang, Hong-Xiang Zhai, Yang Zhou. Formation of TiC hexagonal platelets and their growth mechanism. Powder Technology, 2008; 185(1): 49-53.

3.  Huang Zhenying*, Zhai Hongxiang, Ai Mingxing, Wang YiPressureless Sintering and Properties of Cu/Ti3AlC2 CompositesKey Eng. Mater.(2008)368-372998-1000.

4.  Zhang Hua, Zhai Hongxiang*, Huang ZhenyingArgon-arc Welding Mechanism of Cu/ Ti3AlSn0.2C1.8 CermetsKey Eng. Mater.(2008)368-372:1001-1003.

5.  Huang Zhenying*, Zhai Hongxiang, Zhou WeiTribological behaviors and mechanisms of Ti3AlC2Tribology Letters, Vol. 27, No. 2, August 2007129-135.

6. Huang Zhenying*, Zhai Hongxiang, Guan MinglinOxide-film-dependent tribological behaviors of Ti3SiC2Wear 262 (2007) 1079–1085.

7.  Li Shibo*, Zhai Hongxiang, Bei GuopingSynthesis and microstructure of Ti3AlC2 by mechanically activated sintering of elemental powdersCeramics International 33 (2007) 169–173.

8.  Li Cuiwei*, Zhai Hongxiang, Ding YanSynthesis of Ti3Si0.8Al0.4C1.8 solid solution from Ti–Si–Al–C powder mixtureMaterials Letters 61 (2007) 35753577.

9.  Li Shibo*, Bei Guoping, Zhai Hongxiang, Zhou YangSynthesis of Ti2SnC at Low-temperature using Mechanically Activated Sintering ProcessMaterials Research Bulletin 42 (2007) 1995–1998.

10.  Li Shibo*, Bei Guoping, Zhai Hongxiang, Zhou Yang, Li CuiweiReaction Mechanism for Synthesis of Ti2SnCMaterials Science and Engineering A 457 (2007) 282–286.

11. Zhai Hongxiang*, Ai Mingxing, Huang Zhenying, Unusual Microstructures and Strength Characteristics of Ti3AlC2/Cu CermetsKey Eng. Mater. (2007)336-338: 1433-1435.

12.  Li Cuiwei*, Zhai Hongxiang, Ding Yan et al.Study of Ti3Si1.2-xAlxC2 (x = 0~1.2) Solid Solution via X-Ray DiffractionKey Eng. Mater. (2007)336-338952-954.

13.  Huang Zhenying, Zhai Hongxiang*, Zhang HongbingCurrent-carrying Wear Characteristics and Mechanisms of Ti3AlC2Mater. Sci. Forum 561-565(2007):563-566.

14.  Huang Zhenying, Zhai Hongxiang*, Ai MingxingA New Cu/Ti3AlC2 Cermet Exhibiting Excelent Tribological PropertiesKey Eng. Mater. (2007) 336-338: 1436 -1438.

15.Ai Mingxing, Zhai Hongxiang*, Zhou YangTang Zhaoyun, Huang ZhenyingSynthesis of Ti3AlC2 powders using Sn as an additiveJ. Am.Ceram. Soc. 89 [3], (2006), 1114-1117.

16.Zhai Hongxiang*, Huang Zhenying, Ai MingxingTribological behaviors of bulk Ti3SiC2 and influences of TiC impuritiesMaterials Science and Engineering A 435–436 (2006) 360–370.

17.Li Shibo*, Bei Guoping, Li Cuiwei, Zhai HongxiangSynthesis and deformation microstructure of Ti3SiAl0.2C1.8 solid solutionMaterials Science and Engineering A 441 (2006) 202–205.

18. Li Shibo*, Bei Guoping, Zhai Hongxiang, Zhou YangBimodal Microstructure and Reaction Mechanism of Ti2SnC Synthesized by a High-Temperature Reaction Using Ti/Sn/C and Ti/Sn/TiC PowderJ. Am. Ceram. Soc., 89 [12] 36173623 (2006).

19. Li Shibo*, Zhai Hongxiang, Bei GuopingFormation of Ti3AlC2 by mechanically induced self-propagating reaction in Ti–Al–C system at room temperatureMaterials Science and Technology 2006 Vol 22 [6] 667.

20. Shi-Bo Li*, Jian-Xin Xie. Processing and sintering of W/Cu graded material fabricated by multi-billet extrusion using mechanical alloyed powders. Composite Science and Technology. 2006, 66(13) : 2329-2336.

21.Shi-Bo Li*, Guo-Ping Bei, Hong-Xiang Zhai, Yang Zhou. Synthesis of Ti2SnC from Ti/Sn/TiC powder mixtures by pressureless sintering technique. Materials Letters. 2006, 60:3530-3532.

22.Zhai Hongxiang*, Huang Zhenying, Ai Mingxing et.alTribophysical Properties of Polycrystalline Bulk Ti3AlC2J. Am. Ceram. Soc., 88 [11] 32703274 (2005).

23.Zhai Hongxiang*, Huang Zhenying, Zhou YangTi3AlC2 — A Soft Ceramic Exhibiting Low Friction CoefficientMater. Sci. Forum (2005) 475-479: 1251-1254

24.Zhai Hongxiang*, Huang Zhenying, Zhou yang, Zhang Zhili and Wang Yifan, Frictional Layer and Its Antifriction Effect in High-Purity Ti3SiC2 and TiC-Contained Ti3SiC2. KeyEng.Mater. (2005) 280-283: 1347-1352.

25. Huang Zhenying, Zhai Hongxiang*, Zhou Wei, Zhou Yang, Ai Mingxing, Zhang Zhili and Li Shibo. High-speed friction and wear behaviors of bulk Ti3SiC2Transactions of Nonferrous Metal Society of China 15(2005) 266-269.

26. Zhou Yang, Zhai Hongxiang*, Ai MingxingInfluence of Loading Conditions on Cyclic Compressive Fatigue Behavior of an Al2O3 Matrix Composite.Key Eng. Mater. (2005) 280-283: 1127~1132

27. Huang Zhenying, Zhai Hongxiang*, Zhou Yang et al.Sliding Friction Behavior of Bulk Ti3SiC2 under Different Normal PressuresKey Eng. Mater. (2005)280-283: 1353-1356.

28. Zhou Yang, Zhai Hongxiang*, Huang Zhenying et. al.Influence of Toughening Method on Microstructures and Mechanical Properties of Alumina-Matrix CompositesMater. Sci. Forum (2005) 475-479: 909-912.

29. Shibo Li*, Jianxin Xie, Litong Zhang, Laifei Cheng. Synthesis and Some Properties of Ti3SiC2 by Hot Pressing of Ti, Si and C Powders. Part II: Mechanical and other properties of Ti3SiC2. Mater. Sci & Tech. 200521( 9)105458.

30. Shi-Bo Li* and Hongxiang Zhai. Synthesis and reaction mechanism of Ti3SiC2 by mechanical alloying of elemental Ti, Si and C powders. J Am Ceram Soc., 2005; 88 [8] 2092-2098.

31.Shibo Li*, Hongxiang Zhai. A Soft Ceramic Ti3SiC2 with Microscale Plasticity at Room Temperature. Key Engineering Materials. 2005280-283: 1343.

32. Shi-Bo Li*, Hong-Xiang Zhai, Yang Zhou and Zhi-Li Zhang. Synthesis of Ti3SiC2 powder by mechanically activated sintering of elemental powders. Mater Sci Eng A, 2005, 407(1-2): 315-321.


专利:

2019

1.  黄振莺李新康翟洪祥王渊博蔡乐平胡文强沃少帅,周于文波雷聪。一种三维连续网络结构Ti3A1C2/A1基复合材料及其无压浸渗制备方法。专利号:ZL201710541465.1,授权日:2019115

2.  于文波,黄振莺,翟洪祥,李世波,周洋。定向织构化Ti2AlC-g基复合材料及其热挤压制备方法,ZL201710232832.X 授权日:2019-01-15

2017

1.   翟洪祥, 黄振莺, 陈霖, 陈路路, 位兴民, 周洋. 一种Ti3AlC2/Fe基复合材料的无压浸渗制备方法. 国家发明专利. 专利号: ZL201510236526.4, 申请日:2015.05.11, 授权日: 2017.01.04

2.   黄振莺,翟洪祥,许浩,蔡乐平,王雅正,周洋。一种摩擦系数可调的Ti3Al1-xSnxC2固溶体材料及其制备方法。专利号:ZL201510153408.7,授权日期:2017128

2016

3.   周洋, 李海燕, 陈晨,李世波,李翠伟,黄振莺,翟洪祥. 一种无压烧结-加压致密化制备钛铝碳颗粒增强锌铝基复合材料的方法. 国家发明专利. 专利号: ZL201410355654.6, 申请日:2014.07.24, 授权日: 2016.07.06

4.   周洋, 路金蓉, 孙建军, 陈树涛,王占永,贾晓伟,高立强,李世波,李翠伟,黄振莺,翟洪祥. -钛硅碳复合触头材料及其热压烧结制备方法和用途. 国家发明专利. 专利号: ZL201310314266.9, 申请日:2013.07.24,授权日: 2016.03.02

5.   周洋, 郑涌, 李海燕, 陈晨,李世波,李翠伟,黄振莺,翟洪祥. 一种钛铝碳颗粒增强锌铝基复合材料及其热压烧结制备方法. 国家发明专利. 专利号: ZL201310520702.8, 申请日:2013.10.29, 授权日: 2016.01.13

6.   黄振莺, 翟洪祥, 罗潇, 鲁益麟, 位兴民, 周洋. 一种双连续相Ti3AlC2/Ni基复合材料及其无压浸渗制备方法. 国家发明专利. 专利号: ZL201510070643.8, 申请日:2015.02.10, 授权日: 2016.08.17

7.   翟洪祥, 黄振莺, 陈新华, 陈霖, 许浩, 周洋. 一种Ti3AlC2增强Fe基复合材料及其原位热挤压制备方法. 国家发明专利. 专利号: ZL201410311871.5, 申请日:2014.07.02, 授权日: 2016.08.24

2015

8.   周洋, 李海燕, 郑涌, 陈晨,李世波,李翠伟,黄振莺,翟洪祥. 一种钛铝碳颗粒增强锌铝基复合材料及其无压烧结制备方法. 国家发明专利. 专利号: ZL201310520069.2, 申请日:2013.10.29, 授权日: 2015.12.30

9.   周洋, 路金蓉, 孙建军, 陈树涛,王占永,贾晓伟,高立强,李世波,李翠伟,黄振莺,翟洪祥. -钛硅碳复合触头材料及其无压烧结制备方法和用途. 国家发明专利. 专利号: ZL201310314608.7, 申请日:2013.07.24, 授权日: 2015.12.23

10.黄振莺, 翟洪祥, 罗潇, 李翠伟, 李萌启, 周洋. 一种多孔Ti3AlC2陶瓷的NaCl水洗制备方法. 国家发明专利. 专利号: ZL201410058222.9, 申请日:2014.02.20, 授权日: 2015.06.10


六、国际学术会议(2009年-至今)

1.  Shibo Li, Oral report, Mechanical properties recovery of Ti2AlC ceramic after self healing”. 4th IOP symposium on Self Healing Materials “New Passengers on board” . October 1, 2009, The Netherlands.

2.  Zhenying Huang, Oral report, “Sliding Friction Stability of Ti3SiC2 under Current-carrying Conditions”. iCAT2009 2009.10 ,Singapo

3.  Shibo Li, Oral report, “Low temperature synthesis, mechanical properties and oxidation behavior of Cr2AlC ceramic” 34th International Conference & Exposition on Advanced Ceramics and Composites. January 24-29, 2010Daytona Beach, Florida, USA.

4.  Zhenying Huang, Oral report, “Current-carrying Tribological Properties of Bulk Ti3AlC234th International Conference & Exposition on Advanced Ceramics and Composites. January 24-29, 2010Daytona Beach, Florida, USA.

5.  Shibo Li, Oral report, “Repeatable Crack Healing of Ti2AlC Ceramic in High Temperature Applications for Energy GenerationFirst International Conference on Materials for Energy 2010. July 4-8, 2010,Karlsruhe,Germany.

6.  Zhenying Huang, Oral report, “High Performance of Sub-micro-layered Ti3C2/(Cu-Al) Cermets Prepared by In-situ Hot-extruding Method” PRICM-7, August 1-6, Queensland,Australia.

7.  Shibo Li, Oral report, “Repeatable Crack Healing of Ti2AlC Ceramic at high temperature7th International Conference on High Temperature Ceramic Matrix Composites. September 20 - 22, 2010Bayreuth,Bavaria,Germany.

8.  Shibo Li, Oral report, Repeatable crack healing of Ti2AlC ceramic”, 4th IOP symposium on Self Healing Materials “Cruising smoothly yet climbing” 4 November 2010,Gouda, The Netherlands.

6.  Shibo Li, Oral report, Synthesis of MAX ceramics, 2 December 2010, National Aerospace Laboratories, NLR Flevoland, Voorsterweg 31, 8316 PR Marknesse, The Netherlands.

7. Shibo Li, Oral report, Crack healing of Cr2AlC ceramic, 2 December 2010, National Aerospace Laboratories, NLR Flevoland, Voorsterweg 31, 8316 PR Marknesse, The Netherlands.

8. Shibo Li, Oral report, Crack healing behaviour of a Cr2AlC ceramic”. 3rd International conference on Selfhealing materials, 2729 June, 2011,UK.

9.  Shibo Li, Oral report, Crack healing in Cr2AlC ceramic”. 7th International Conference on High-Performance Ceramics (CICC-7), 4-7 November 2011,Xiamen,China.

10. Shibo Li, Oral report, “Mechanism for the abnormal thermal shock behavior of MAX ceramics”. 4th International Conference on Self-healing Materials, 16-20 June 2013,Ghent,Belgium.

11. Shibo Li, Invited lecture, “A Cr2AlC MAX-ceramic with Attractive High-temperature Properties”. 8th International Conference on High Temperature Ceramic Matrix Composites, 22-26 September 2013,Xi'an,Shannxi,China.

12. Shibo Li, Invited lecture, “High Temperature Oxidation, Thermal Shock and Crack Healing Behaviors of MAX Phases”. 13th International Ceramics Congress, June 8-13, 2014,Montecatini Terme,Tuscany,Italy.

 

七、国际合作与交流

1)  2011523邀请荷兰格罗宁根大学(University of Groningen) Jiancun Rao研究员来校交流。523日,Rao研究员为皇冠手机登录地址hg师生作了“The application of TEM (Transmission Electron Microscopy) on the material science”报告。

 

2 201163-8日邀请荷兰代尔夫特理工大学(Delft University of Technology) Wim.G. Sloof副教授来校交流。67日,Sloof副教授为皇冠手机登录地址hg师生作了“Self Healing in Materials for High Temperature Applications”报告。

 

32012328日邀请比利时鲁文工程大学(Leuven Engineering College) Wim Dewulf教授和Wim.G. Sloof教授来校交流。328日,Sloof教授为皇冠手机登录地址hg师生作了Quality and sustainability assessment and improvement – A selection of recent research results from Group T Leuven Engineering College报告。

 42012113-5日邀请荷兰代尔夫特理工大学(Delft University of Technology Sybrand van der Zwaag教授和Wim.G. Sloof教授来校交流。115日,Zwaag教授为皇冠手机登录地址hg师生作了Self Healing Materials : new concepts and first steps to commercialisation报告。

 

 

52012123-7 号邀请法国普瓦捷大学(University of PoitiersSylvain Dubois教授来北京交通大学进行学术交流和访问。124日,Dubois教授为皇冠手机登录地址hg师生作了Synthesis, microstructural characterization and physical properties of Ti2AlC(1-x)Nx MAX Phase solid solution Ti2AlC(1-x)Nx MAX报告。

 

联系方式

     

所 长

周洋

办公电话

010-51685554

办公地点

机械楼Z607-2

通信地址

北京市海淀区上园村3号,北京交通大学皇冠手机登录地址hg

邮 编

100044

电子邮件


yzhou@bjtu.edu.cn


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