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宋西平

电话:010-62333213 办公室:北京科技大学主楼273室 传真:010-62333447 职称:教授 Email:xpsong@skl.ustb.edu.cn

研究方向

1. 金属储氢材料

2. 核用锆合金

3. 医用钛合金

4. 镁基纳米材料

5. 全固态锂离子电池材料


教育经历

1995/09-1999/04  西安交通大学   材料科学与工程            博士

1992/09-1995/07  西安交通大学   材料科学与工程            硕士

1985/09-1989/07  陕西理工学院   金相专业                      学士


工作经历

1999/05 至今     北京科技大学新金属材料国家重点实验室      研究员

2013/08-2014/08  美国橡树岭国家实验室及田纳西大学         访问学者

2003/04-2004/04  英国伯明翰大学IRC研究中心                    访问学者

1989/07-1992/09  中国船舶重工集团公司第十二研究所         助理研究员


论文著作

金属储氢材料方向
1. Cheng Zhang, Yuan Wu, Li You, Xingzhong Cao, Zhaoping Lu, Xiping Song. Investigation on the activation mechanism of hydrogen absorption in TiZrNbTa high entropy alloy, Journal of Alloys and Compounds, 781 (2019) 613-620.
2. Yun Yang, Xiping Song, Cheng Zhang,Deuterium absorption properties of ZrexCu alloys prepared by SPS,Int J of Hydrogen Energy, 41(2016)22206-22213
3. C.Zhao, X.P.Song, Y.Yang, B Zhang, Hydrogen absorption cracking of zirconium alloy in the application of nuclear industry, Int J of Hydrogen Energy, 38(25)(2013)10903–10911.
4. Xiping Song, Peilong Zhang, Pei Pei, Jian Liu, Rucheng Li, Guoliang Chen, The role of spark plasma sintering on the improvement of hydrogen storage properties of Mg-based composites, Int. J. Hydrogen Energy, 35(15)(2010)8080-8087.
5. Pei Pei, Xiping Song, Jian Liu, Guoliang Chen, The effect of rapid solidification on the micro- structure and hydrogen storage properties of V35Ti25Cr40 hydrogen storage alloy, Int. J. Hydrogen Energy, 34 (2009) 8094–8100.
6. Pei Pei, Xiping Song, Jian Liu, Guoliang Chen, Improving hydrogen storage properties of Laves phase related BCC solid solution alloy by SPS preparation method, Int. J. Hydrogen Energy, 34 (2009) 8597–8602.
7. Pei Pei, Xiping Song, Jian Liu, Peilong Zhang, Guoliang Chen,Study on the hydrogen desorption mechanism of a Mg-V composite prepared by SPS,Int. J. Hydrogen Energy, 37(2012) 984-989.
8. Jian Liu, Xiping Song, Pei Pei, Guoliang Chen, Hydrogen storage properties of Mg-50vol.%V7.4 Zr7.4Ti7.4Ni7.4 composite prepared by spark plasma sintering, Int. J. Hydrogen Energy, 34(2009), 4365-4370.
核用锆合金方向
9. Cheng Zhang, Yun Yang, Yin Zhang, Jingru Liu, Li You, Xiping Song, Precipitation of cotunnite-type zirconia induced by deuterium absorption in Zr-4 alloy,Scripta Materialia,143 (2018) 1-4
10. Cheng Zhang, Yun Yang, Yin Zhang, Jingru Liu, Li You, Xiping Song,Study of the microstructure evolution of zirconium alloy during deuterium absorption at high temperature,Journal of Nuclear Materials, 493(2017)448-459.
11. Yun Yang, X.P.Song, C. Zhang, Study of cracking in deuterium absorption Zircaloy-4 alloy, Journal of Nuclear Materials, 465(2015)97-103.
医用钛合金方向
12. L.You, X.P.Song, Development of a low Young’s modulus Ti alloy using d electrons alloy theory, Scripta Material, 67(2012)57-60.
13. L.You, X.P.Song, First principles study of low Young’s modulus Ti-Nb-Zr alloy system, Materials Letters, 80(2012)165-167.
14. X.P.Song, L.You, B.Zhang, Design of low elastic modulus Ti-Nb-Zr alloys for implant materials, Materials Technology: Advanced Performance Materials, 27(2012)55-57.
TiAl方向
15. L.Yu, X.P.Song, M.Zhang, Z.H.Jiao, H.C.Yu, Effect of stress ratio on fatigue lifetime of high Nb containing TiAl alloy at elevated temperature, Material Design, 84(2015)378-384.
16. L.Yu, X.P.Song, L.You, Z.H.Jiao, H.C.Yu, Effect of dwell time on creep-fatigue life of a high-Nb TiAl alloy at 750C, Scripta Materialia, 109(2015)61-63.
17. M.Zhang, X.P.Song, L.Yu, Z.H.Jiao, H.C.Yu, In situ observation of fatigue crack initiation and propagation behavior of a high-Nb TiAl alloy at 750°C, Materials Science & Engineering A, 622(2015)30-36.
镁基纳米材料方向
18. Jingru L, Han W, Qingxi Y, Xiping S. A novel material of nanoporous magnesium for hydrogen generation with salt water[J]. Journal of Power Sources, 395(2018)8-15.
19. H.Wang, X.P.Song, L.You, Oriented growth of magnesium nanowires by physical vapor deposition in high vacuum, Scripta Materialia,108(2015)68–71
20. Han Wang, Xiping Song, Li You, Influence factors on the formation of magnesium nanowires prepared by physical vapor deposition, Journal of Crystal Growth 432(2015)78–82.
全固态锂离子电池材料方向
21. Liu Y, Liu J, Sun Q, Qian Sun, Dawei Wang, Keegan R. Adair, Jianneng Liang, Cheng Zhang, Li Zhang, Shigang Lu, Huan Huang, Xiping Song, Xueliang Sun,   Insight into the Microstructure and Ionic Conductivity of Cold Sintered NASICON Solid Electrolyte for Solid-State Batteries, ACS Applied Materials Interface, 11(2019)27890-27896.
22. Liu Y, Liu J, Sun Q, Yang Zhao, Biqiong Wang, Payam Kaghazchi, Keegan R. Adair, Ruying Li, Cheng Zhang, Jingru Liu, Liang-Yin Kuo, Yongfeng Hu, Tsun-Kong Sham, Li Zhang, Rong Yang, Shigang Lu, Xiping Song, Xueliang Sun, Stabilizing the Interface of NASICON Solid Electrolyte against Li Metal with Atomic Layer Deposition, ACS Applied Materials Interface, 10(2018)31240-31248.


专    利

1. 宋西平,窦娜娜,杨云.一种无裂纹锆合金的制备工艺. CN103205603A,2013.
2. 宋西平,王涵,窦娜娜. 一种制备纳米镁的方法. CN103028734A,2013.
3. 宋西平,陈国良. 一种细化TiAl合金铸锭显微组织的热加工工艺. CN1752265,2006.
4. 宋西平,陈宁,赵超. 一种氢诱发Mg还原TiO2制取金属Ti的方法. CN102528067A,2012.
5. 宋西平,赵超,陈宁. 一种易切削钛合金及其制备方法.CN102605212A,2012.
6. 宋西平,李汝成. 一种制备高容量Mg-ZrMn2复合储氢合金的方法. CN101787455A,2010.
7. 宋西平,刘健,裴沛. 一种镁钒复合储氢合金及其制造法.CN101307405,2008.
8. 宋西平,张蓓. 一种模量可调型矫牙用钛合金及其制备工艺.CN1932059,2007.
9. 宋西平,王涵. 一种高真空制备镁纳米线的方法.CN104846433A,2015.


已完成或正在进行的研究项目

1. 北京市自然科学基金: 钒系BCC固溶体贮氢材料

2. 北京市自然科学基金: 气相沉积法制备镁基纳米材料

3. 国家自然科学基金:医用钛合金

4. 国家自然科学基金:镍基高温合金

5. 国家自然科学基金:纳米镁储氢材

6. 国家自然科学基金:锆合金的储氢性能

7. 国家“973”项目:高铌TiAl合金力学性能评价

8. 横向课题:核电用锆合金储氘开裂机制研究


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邮箱:amm@skl.ustb.edu.cn

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