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[1] Xiaodong Yang, Jianwen Guo, Xiaofei Chen, and Masanori Kunieda, Molecular dynamics simulation of the material removal mechanism in micro-EDM, Precision Engineering, 2011, Vol.35, pp:51–57 (SCI检)
[2] Xiaodong YANG, Chunwei XU, and Masanori KUNIEDA, Miniaturization of WEDM Using Electrostatic Induction Feeding Method, Precision Engineering, Vol.34/2, 2010, pp:279-285 (SCI检)
[3] Kunieda, M., Hayasaka, A., Yang, X. D., Sano, S., and Araie, I., Study on Nano EDM Using Capacity Coupled Pulse Generator, Annals of the CIRP, Vol.56/1, 2007, pp: 213-216 (SCI检)
[4] Xiaodong YANG, Xiaofei CHEN, Jianwen GUO and Masanori KUNIEDA, Molecular Dynamics Simulation of Removed Materials Distribution in Micro-EDM Gap, CIRP HPC, Gifu, Japan, 2010, pp:343-346
[5] Xiaodong YANG, Jianwen GUO, Xiaofei CHEN, and Masanori KUNIEDA, Study on Influences of Material Micro-Structure in Micro-EDM by Molecular Dynamics Simulation, ISEM XVI, Shanghai, China, 2010, 717-720
[6] Xiaodong YANG, Zhaobing WU, and Guanxin CHI, Study on Micro WEDM Using Electrostatic Induction Feeding Method, ISEM XVI, Shanghai, China, 2010, 675-680
[7] Tomohiro Koyano, Yuna Yahagi, Masanori Kunieda, and Xiaodong Yang, High Spindle Speed Micro EDM Using Electrostatic Induction Feeding Method, ISEM XVI, Shanghai, China, 2010, 699-602
[8] Xiaodong Yang, Yong Wan, and Fuqiang Hu, Study on influence of stray inductance in micro EDM using electrostatic induction feeding method,ICoPE2010 & 13th ICPE, Singapore, 2010, Key Engineering Materials Vols. 447-448, pp: 263-267
[9] Yuna Yahagi, Tomohiro Koyano, Masanori Kunieda, and Xiaodong Yang, High Spindle Speed Wire Electrical Discharge Grinding Using Electrostatic Induction Feeding Method,ICoPE2010 & 13th ICPE, Singapore, 2010, Key Engineering Materials Vols. 447-448, pp: 268-271
[10] Xiaodong Yang, Jianwen Guo, and Xiaofei Chen, Molecular Dynamics Simulation of the Forming Process of Discharge Crater in Micro-EDM, Asian Symposium for Precision Engineering and Nanotechnology 2009, Kokura, Japan, 最佳论文奖
[11] YANG Xiaodong, LIU Peng, Optimization of Triangulations Based on Serial Fault Data, Tsinghua Science and Technology, Vol.14/S1, pp:38-42(2009)
[12] Yang, XD., Kunieda , M., and Sano, S., Study on the influence of stray capacitance in Micro EDM using electrostatic induction feeding, International Journal of Electrical Machining, 2008, No.13, pp: 35-40
[13] X.D. Yang, B.H. Liu, and Y. Wang, Triangular Surface Reconstruction of CT Images by Using Isosurface construction, Applied Mechanics and Materials, Vol.10-12, pp:503-507 (2008)
[14] X.D. Yang, Y. Wang, and P. Yang , 3-D Modeling for Teeth Correction on the Basis of Optical Measurement, Applied Mechanics and Materials, Vol.10-12, pp:662-666 (2008)
[15] Xiaodong Yang, Masanori Kunieda, and Sadao Sano, Study on the influence of stray capacitance in Micro EDM using electrostatic induction feeding, Proc. of AEMS2007, Nagoya, Japan, 2007, pp: 236-241 最佳论文奖
[16] Yang, XD., Kimori, M., Kunieda , M., Araie, I., and Sano, S., Machining Properties of Micro EDM Using Electrostatic Induction Feeding, Proc. of ISEM XV, Pittsburgh, USA, 2007, pp: 231-234
[17] 矢萩优名, 小谷野智広, 国枝正典, 杨暁冬, 高速回転主轴への静电诱导给电による微细放电加工の加工特性向上, 日本电気加工学会全国大会讲演论文集, 2009, pp:77-80
[18] 矢萩优名,小谷野智広,国枝正典,杨暁冬,静电诱导给电による高速回転主轴を用いた微细放电加工,2009度日本精密工学会全国大会秋季大会学术讲演会讲演论文集,2009, pp:759-760
[19] 杨暁冬, 徐春伟, 国枝正典, 静电诱导给电法によるワイヤ放电加工の微细化, 2008度日本精密工学会全国大会秋季大会学术讲演会讲演论文集, 2008, pp:759-760
[20] 木森将仁,国枝正典, 杨 暁冬, 佐野定男, 静电诱导给电を用いた放电加工の微细化, 电気加工技术, Vol.31/98, 2007,pp:13-18
[21] 木森将仁,国枝正典,杨暁冬,佐野定男,静电诱导给电法による微细放电加工の単极性放电化,2007年度日本精密工学会春季大会学术讲演会讲演论文集,2007.3,pp:517-518
[22] 杨暁冬,木森将仁,国枝正典,新家一朗,佐野定男,静电诱导给电を用いた微细放电加工における极间电圧测定の影响,2006度日本精密工学会全国大会秋季大会学术讲演会讲演论文集,2006,pp:677-678
[22] 早坂暁彦,杨暁冬,国枝正典,新家一朗,静电诱导给电を用いた微细放电加工の加工特性,2006度日本精密工学会全国大会春季大会学术讲演会讲演论文集,2006, pp:679-680
[24 杨晓冬,赵万生,基于Web的人工神经网络电火花加工工艺预测,哈尔滨工业大学学报,Vol.37/8, 2005.8, pp: 1029-1031
[25] Haipeng Huang, Xiaodong Yang, Yang Wang, Three-dimensional Modeling of the Concealed Teeth Correcting Equipment and the Investigation of it’s Moulding by Rapid Prototyping Technology, 2005,12
[26] 杨晓冬, 宋颖慧, 赵万生, 基于遗传算法的电火花加工电参数优化模型, 哈尔滨工业大学学报, Vol.34/4, pp: 450-454 (2002) [1] 特种加工(第5版), 机械工业出版社, 2008.7
[2] 特种加工技术, 哈尔滨工业大学出版社, 2006.8
[3] 微细加工技术, 国防工业出版社, 2005.8
[4] 先进电火花加工技术, 国防工业出版社, 2003.10 [1] 节能型精密高效数控电加工技术与装备的研究
2009年黑龙江省科技二等奖
[2] 节能型精密高效数控电加工技术与装备的研究
2009年黑龙江省高校科技一等奖
[3] Asian Symposium for Precision Engineering and Nanotechnology 2009,
Kokura, Japan, 2009/11, Best Paper Award
[4] Asian Electrical Machining Symposium 2007,
Nagoya, Japan, 2007/11, Best Paper Award
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