李世波
李世波,外文名Li Shibo,男,汉族,毕业于北京交通大学,职业是教授,教授本科生课程纳米材料、材料成形过程自动控制基础,教授研究生课程陶瓷材料学、材料合成与制备,研究领域为无机化合物非金属及其复合材料,先进材料制备与加工技术等,获得2007年度高等学校科学技术发明奖二等奖。
研究领域
无机非金属及其复合材料
先进材料制备与加工技术
载运工具新材料运用技术
三元层状陶瓷材料的制备及应用开发
科研项目
1、共主持科研项目4项
MAX材料的制备,2008.11-2008.12
导电自润滑Ti2SnC陶瓷的织构化设计及性能研究, 2007.12-2009.12
Ti3SiC2及Ti3AlC2块体材料的制备,2007.08-2007.09
反应球磨合成Ti3SiC2陶瓷粉末的研究,2004.2-2005.12
2、共参与863、973等科研项目5项
高速弓网载流滑动失效机制与材料设计,2007.7-2011.12
高速铁路接触网线与受电弓滑板及其适配性研究,2006-12-2009.12
M/Mn+1AXn族金属陶瓷制备技术及摩擦学性能,2007-01-2009.12
Ti3SiC2系滑板技术基础与多场耦合问题研究,2005.8-2008.8
Ti3碳化硅2系材料在高速列车受电弓滑板的应用,2003.7-2005.11
学术成果
论文:
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: 966–969.
2. Shi-Bo Li, Wei-Hua Xiang, Hong-Xiang Zhai, Yang Zhou. Formation of TiC hexagonal platelets and their growth mechanism. Powder Tech, 2008; 185(1): 49-53.
3. 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.
4. Shi-Bo Li, Guo-Ping Bei, Hong-Xiang Zhai, Yang Zhou and Cui-Wei Li. Synthesis of Ti2SnC at Low-温度 using Mechanically Activated Sintering process. Mater Sci Eng A, 2007; 457: 282-286.
5. Shi-Bo Li, Guoping Bei, Hongxiang Zhai, Zhili Zhang, Yang Zhou, and Cuiwei Li. The Origin of driving force for spontaneous growth of Sn whiskers. J Mater Res, 2007; 22 (11), 3226-3232.
6. Shi-Bo Li, Hong-Xiang Zhai, Guo-Ping Bei and Yang Zhou. Mechanically Activated Low-温度 Synthesis of Ti2SnC. Key Eng Mater, 2007, 326-328:955-957.
7. Shi-Bo Li, Hong-Xiang Zhai, Guo-Ping Bei, Yang Zhou and Zhi-Li Zhang. Synthesis of Ti3AlC2 by Mechanically Activated Sintering of Elemental Powders of Ti, Al and C. Ceram Int, 2007,33:169-173.
8. Shi-Bo Li and Jian-Xin Xie. Fabrication of thin-walled 316L stainless steel seamless pipes by extrusion technology. J Mater Proc Tech, 2007; 183(1): 57-61.
9. Shi-Bo Li, Guo-Ping Bei, Cui-Wei Li,Ming-Xing Ai, Hong-Xiang Zhai, and Yang Zhou. Synthesis and deformation microstructure of solid solution Ti3SiAl0.2C1.8. Mater Sci Eng A, 2006; 441(1-2): 202-205.
10. Shi-Bo Li, Guo-Ping Bei, Hong-Xiang Zhai and Yang Zhou. Bimodal Microstructure and Reaction Mechanism of Ti2SnC Synthesized by High 温度 Reaction Using Ti/Sn/C and Ti/Sn/TiC Powder Compacts. J Am Ceram Soc, 2006, 89:3617-3623.
11. Shi-Bo Li, Guo-Ping Bei, Hong-Xiang Zhai, Yang Zhou. Synthesis of Ti2SnC from Ti/Sn/TiC powder mixtures by pressureless sintering technique. Mater Lett, 2006, 60:3530-3532.
12. Shi-Bo Li, Jian-Xin Xie. Processing and sintering of W/Cu Graded Material fabricated by Multi-Billet Extrusion using mechanically alloyed powders. Comp Sci Tech, 2006, 66(13) : 2329-2336.
13. Shi-Bo Li, Hong-Xiang Zhai, Guoping Bei, Yang Zhou and Zhili Zhang. Formation of Ti3AlC2 by Mechanically Induced Self-propagating Reaction in Ti-Al-C System at Room 温度 Mater Sci Tech, 2006, 22(6):667-672.
14. Shi-Bo Li, Hong-Xiang Zhai, Yang Zhou and Zhi-Li Zhang. Synthesis of Ti3碳化硅2 powder by mechanically activated sintering of elemental powders. Mater Sci Eng A, 2005, 407(1-2): 315-321.
15. Shi-Bo Li and Hong-Xiang Zhai. A Soft Ceramic Ti3SiC2 with Microscale Plasticity at Room 温度 Key Eng Mater, 2005,280-283: 1343.
16. Shi-Bo Li and Hong-Xiang Zhai. Synthesis and Reaction Mechanism of Ti3碳化硅2 by Mechanical Alloying of Elemental Ti, Si and C Powders. J Am Ceram Soc, 2005; 88 2092-2098.
17. Shi-Bo Li, Jianxin Xie, Litong Zhang and Leifei Cheng. Synthesis and Some Properties of Ti3SiC2 by Hot Pressing of Ti, Si and C Powders. Part II: Mechanical and other properties of Ti3碳化硅2. Mater Sci Tech, 2005, 21( 9):1054-58.
专利:
1. 李世波,向卫华,贝国平,翟洪祥,周洋. 高纯度碳化铝钛陶瓷粉体的常压合成方法.
2. 李世波,贝国平,向卫华,翟洪祥,周洋 热压制备高纯度碳化铝钛块体材料的方法.
3. 李世波,翟洪祥,贝国平,周洋,张志力. 一种低温合成碳化锡钛的方法.
4. 李世波,翟洪祥,贝国平,周洋,张志力. 一种碳化锡钛陶瓷粉体的常压合成方法.
5. 李世波,翟洪祥,贝国平,周洋,张志力. 机械活化低温合成碳化锡钛的方法.
6. 李世波,翟洪祥,张志力。一种制备钛硅碳陶瓷粉的方法.
获奖荣誉
2007年度高等学校科学技术发明奖二等奖,排名3(2008)
社会兼职
1、中国材料研究学会青年委员会理事
2、国际材料期刊Mater Res Bull,Mater Sci Eng A,Mater Lett,J Am Ceram Soc等刊物的评阅专家