基本信息
潘文霞 女 汉族 博导 力学研究所
电子邮件:wxpan@imech.ac.cn
联系电话: 010-82544216
通信地址:北京市北四环西路15号
邮政编码:100190

研究领域

目前主要研究方向:空间电推进技术;热等离子体的产生、状态控制、参数诊断;等离子体与材料表面的相互作用及换热效果;等离子体表层材料制备与改性,包括热障涂层制备、抗热冲击性能检测、金属表面熔凝或熔敷强化工艺、薄膜沉积;冷等离子体薄膜工艺。
过去主要从事过铸铁的离子渗氮、高频与直流叠加的热等离子体CVD法制备陶瓷纳米粉、低气压等离子体烧结、等离子体喷涂、等离子体材料表面改性、金属与陶瓷的接合及其界面、热等离子体CVD制备大面积金刚石膜,以及直流大气压层流等离子体射流产生、磁旋弧等离子体发生器研制等方面的研究。

招生信息

   
招生专业
080103-流体力学
招生方向
热等离子体诊断及应用
空间电推进
气动与传热

简历

1982年1月  西安交通大学机械工程系热加工专业学士
1982年10月 留学日本。1988年9月获日本东京大学工学博士学位,后在日本大阪大学、东京大学等单位工作
1996年   北京科技大学博士后
1997年   入选中国科学科院“****”
1998年   中科院力学研究所研究员

社会任职

力学所学位委员会委员
等离子体与燃烧中心学术委员会委员
力学学会等离子体专业委员会副主任委员

出版信息

   
代表论著
1. Wenxia Pan, Heji Huang, Chengkang Wu, Effect of Nozzle Temperature on the Performance of a 1 kW H2-N2 Arcjet Thruster, Plasma Science and Technology, vol.12(4):pp 473-477. (2010)
2. Wenxia Pan, Zhiying Guo, Xian Meng, Heji Huang and Chengkang Wu, Fluctuation characteristics of arc voltage and jet flow in a non-transferred dc plasma generated at reduced pressure, Plasma Sources Sci. Technol. 18:  045032.(2009)
3. Wenxia Pan, Teng Li, Chengkang Wu, Effects of Anode Temperature on Working Characteristics and Performance of a Low Power Arcjet Thruster, Chinese Physics Letters, vol26(12):125201.(2009)
4. Wenxia Pan, Xian Meng, Teng Li, Xi Chen and Chengkang Wu, Comparative observation of Ar, Ar-H2 and Ar-N2 DC arc plasma jets and their arc root behaviour at reduced pressure, Plasma Science and Technology, Vol. 9, No.2, 152-157 (2007).
5. Pan Wenxia, Meng Xian, Chen Xi, Wu Chengkang. Experimental study on the thermal argon plasma generation and jet length change characteristics at atmospheric pressure, Plasma Chemistry and Plasma Processing, Vol. 26, No. 4, 335-345 (2006).
6. Pan Wenxia, Meng Xian, Wu Chengkang. Arc voltage fluctuation in DC laminar amd turbulent plasma jets generation, Plasma Science and Technology, Vol. 8, No.4, 416-421 (2006).
7. W.X.Pan, G.Li, X.Meng, W.Ma and C.K.Wu, “Laminar plasma jets: generation, characterization and applications for material surface processing”, Pure Appl. Chem., 77(2) 2005, 373-378.
8. W.X.Pan, X.Meng, G.Li, Q.X.Fei and C.K.Wu, “Feasibility of laminar plasma-jet hardening of cast iron surface”, Surface & Coatings Technology, (2005).
9. Pan Wenxia, Li Teng, Meng Xian, Chen Xi and Wu Chengkang, Arc root attachment on the anode surface of arc plasma torch observed with a novel method, Chinese Physics Letters, Vol. 22, No. 11, 2895-2898 (2005)
10. G. Li, W.X.Pan, X.Meng and C.K.Wu, “Application of Similarity Theory to the Characterization of Non-transferred Laminar Plasma Generation”, Plasma Sources Sci. Technol., 14 (2005) 219-225.
11. W. X. Pan, W. H. Zhang, W. Ma and C. K. Wu,Characteristics of argon laminar DC plasma jet at atmospheric pressure,Plasma Chemistry and Plasma Processing, 22 [2], 271-283, 2002.
12. W.X.Pan, W.H.Zhang, W.H.Zhang, and C.K.Wu, “Generation of Long, Laminar Plasma Jets at Atmospheric Pressure and Effects of Flow Turbulence”, Plasma Chemistry and Plasma Pro-cessing, 21(1),2001, 23-35.
13. W.X.Pan, F.X.Lu, W.Z.Tang, G.F.Zhong, Z.Jiang and C.K.Wu, “Carbon transition efficiency and process cost in high-rate, large-area deposition of diamond films by DC arc plasma jet”, Diamond and Related Materials, 9, 1682-1686, 2000.
14. W.X.Pan, T.Okamoto and X.S.Ning, “Joining of Al-plasma-sprayed Si3N4 ceramics”, J. Mater. Sci., 29, 1436-1440. (1994).
15. W.X.Pan, T.Okamoto, Y.Miyamoto, X.S.Ning, H.Matsumoto and T.Yoshida, “Plasma spray deposition of fine SiC powder”, J. Am. Ceram. Soc., 76 [5] 1335-1339 (1993).
16. W.X.Pan, H.Sato, T.Yoshida and K.Akashi, “Plasma sintering of ultrafine amorphous Si3N4”, Advaced Ceramic Materials (J. Am. Ceram. Soc.), 3[1] 77-79 (1988).
17. W.X.Pan, W.H.Zhang, W.Ma and C.K.Wu, “Generation and characterization of laminar-flow DC plasma jet at atmospheric pressure”, 5th Asia-Pacific Conf. On Plasma Sci. & Tech., Dalian, Sep. 10-13, 2000, pp.O-04, Invited topic.
18. W. X. Pan and C. K. Wu,Vacuum plasma spray for high quality TBC,JSPS Inter. Symp. on Thermal Plasma Deposition, Tokyo , Jan. 28, 2002, ed. by T. Yoshida, etc., pp.29-35, Invited.
19. W. X. Pan, G. Li, X. Meng, C. K. WU, “Laminar plasma jets: generation, characterization and applications for material surface processing”, In the proceedings of ISPC-16, Taormina, Italy, 2003, P. 247. (Invited) 
20. Wen-Xia Pan, Xian Meng, Kai Cheng, Dong-Yan Xu, Xi Chen, Cheng-Kang Wu. Flow field comparison of laminar and turbulent DC arc plasma jets. 7th Asia Pacific Conference on Plasma Science and Technology, June 29 – July 2, 2004, Fukuoka, Japan. P. 67. (Abstract; Invited).
21. 潘文霞, 李腾, 黄河激, 林烈, 吴承康. 千瓦级氢-氮混合气电弧加热推力器运行参数与性能. 推进技术, 2008; 29:494-497.
发表专利

1.发明专利: 用于超高温气体射流径向动态电子温度表征的电子探针, 潘文霞, 孟显, 李腾, 吴承康, 专利号: ZL2004100984401, 授权日: 2009.11.18
2.发明专利: 一种基于气动小推力测量的小推力测力器及测量方法, 潘文霞, 黄河激, 孟显,吴承康, 申请号: 200810114582.0.
3.发明专利: 测量真空中使用的小火箭发动机推力矢量的装置和方法, 潘文霞, 孟显, 吴承康, 申请号: 200810240126.0. 
4. 发明专利: 一种检测空间等离子体推力器推力矢量的测量装置和方法, 潘文霞, 孟显, 吴承康, 申请号: 200910089133.X.
5.发明专利: 一种间接测量气动推力的方法及装置, 潘文霞, 吴承康, 孟显, 申请号: 200910243029.1. 
6.发明专利:一种喷气推力的测量方法及其装置,潘文霞,吴承康,李腾,申请号:200610072174.4
7.发明专利:用于测量超高温流动气体射流参数用的减扰焓探针,潘文霞,孟显,吴承康,申请号:200410074533.0
8.实用新型: 一种基于气动原理的小推力测力器, 潘文霞, 吴承康, 黄河激, 孟显, 专利号: ZL2009202783119, 授权日: 2010.09.08
9.实用新型:一种用于微小推力测量装置的低扰动供气管,潘文霞,孟显,吴承康,申请号:200620007625.1
10.实用新型:一种减扰焓探针,潘文霞,孟显,吴承康,申请号:200420117763.6

指导学生

已指导学生

孟显   博士研究生  080103-流体力学  
吴广智   硕士研究生  080104-工程力学  
李罡 硕士研究生 080101-一般力学与力学基础 
费群星 硕士研究生 080101-一般力学与力学基础
郭志颖  硕士研究生  080101-一般力学与力学基础  
贾军伟  硕士研究生  080101-一般力学与力学基础  

现指导学生
彭翊  硕士研究生  080101-一般力学与力学基础 
段锟  硕士研究生  080101-一般力学与力学基础