朱小鵬

朱小鵬,大連理工大學材料科學與工程學院教授、博士生導師,三束材料改性教育部重點實驗室副主任。主要從事載能束與電漿表面工程理論與套用研究。

基本介紹

  • 中文名:朱小鵬
  • 國籍:中國
  • 職業:教授、博士生導師
  • 畢業院校:大連鐵道學院、大連理工大學、日本長岡技術科學大學
朱小鵬,大連理工大學材料科學與工程學院教授、博士生導師,三束材料改性教育部重點實驗室副主任。主要從事載能束與電漿表面工程理論與套用研究。主持國家自然科學基金項目3項,參與國家973計畫項目、ITER計畫專項的課題、國防預研基金重點項目及共性技術研究基金項目、校企合作項目10餘項。發表學術論文63篇,SCI、EI收錄論文50餘篇;國際會議邀請報告5次;參編英文專著1部,獲得授權中國發明專利3項。
學習與工作經歷:
1992.9-1996.7 大連鐵道學院材料科學與工程系 獲工學學士學位
1996.9-1999.7 大連理工大學材料系 獲工學碩士學位
1999.9-2003.6 大連理工大學物理系 獲理學博士學位
2003.7-2006.3 日本長岡技術科學大學極限能量密度研究所 博士後
2006.4-2011.12 大連理工大學材料科學與工程學院表面工程研究室 副教授
2009.1-2009.2 俄羅斯托木斯克理工大學高電壓研究所 訪問學者
2012.1-現在 大連理工大學材料科學與工程學院表面工程研究室 教授
社會兼職
1. 中國機械工程學會表面工程分會委員、青年工作委員會副主任委員
2. 遼寧省機械工程學會摩擦學分會理事
研究領域(研究課題)
1. 研究領域:
載能束與電漿表面工程;核電裝備表面與塗層強化技術。
2. 主要課題:
(1) 強流脈衝離子束輻照核級硬質合金塗層復相協同衝擊應變機制研究(51371043),國家自然科學基金面上項目,2014-2017,主持。
(2) 基於強流脈衝離子束測試評價托卡馬克第一壁材料鎢的抗高熱負荷性能及失效機理研究(51071036),國家自然科學基金面上項目,2011-2013,主持。
(3) 強流脈衝離子束非平衡熱-力耦合場增強滲氮改性機理研究(50701009),國家自然科學基金青年項目,2008-2011,主持。
(4) 大功率禁止式核主泵自主化形性協同製造原理(2015CB057306),973計畫項目,2015-2019,參加。
(5) 核主泵製造的關鍵科學問題(2009CB724305),973計畫項目,2008-2012,參加。
碩博研究方向
1. 強流脈衝離子束表面改性技術
2. 強流脈衝離子源技術及工藝設備
3. 熱噴塗塗層設計原理與製備技術
4. 載能束與表面相互作用數值模擬
出版著作和論文
1. 期刊論文
[1] X.P. Zhu, Z.C. Zhang, A.I. Pushkarev, M.K. Lei. Ion beam enhancement in magnetically insulated ion diodes for high-intensity pulsed ion beam generation in non-relativistic mode. Physics of Plasmas, 23 (2016) 013112.
[2] X.P. Zhu, F.G. Zhang, T.K. Song, M.K. Lei. Nonlinear Wear Response of WC-Ni Cemented Carbides Irradiated by High-Intensity Pulsed Ion Beam. Transactions of the ASME, Journal of Tribology, 136 (2014) 011603.
[3] X.P. Zhu, F.G. Zhang, Y. Tang, J.P. Xin, M.K. Lei. Dynamic response of metals under high-intensity pulsed ion beam irradiation for surface modification. Nuclear Instruments and Methods in Physics Research B, 272 (2012) 454-457.
[4] X.P. Zhu, F.G. Zhang, Y. Tang, M.K. Lei. Phase transformation under beam-target interactions during high-intensity pulsed ion beam irradiation at low pressure. Laser and Particle Beams, 29 (2011) 283-289.
[5] X.P. Zhu, Y. Tang, X. Wang, M.K. Lei. Fiber erosion of carbon fiber composite exposed to simulated ITER relevant thermal impact by high-intensity pulsed ion beam. Fusion Engineering and Design, 85 (2010) 1999-2004.
[6] X.P. Zhu, C. Liu, M.K. Lei. High heat flux testing of doped and coated graphite using high-intensity pulsed ion beam. Acta Physica Polonica A, 115(6) (2009) 1177-1179.
[7] X.P. Zhu, C. Liu, X.G. Han, M.K. Lei. Changes in surface morphology of Ti6Al4V alloy and ZrO2-Y2O3 ceramic coating modified by high-intensity pulsed ion beams. Frontiers of Materials Science in China, 2(1) (2008) 55-59.
[8] X.P. Zhu, H. Suematsu, W. Jiang, K. Yatsui. Structures and photoluminescence properties of silicon thin films prepared by pulsed ion-beam evaporation. Materials Science and Engineering B, 149 (2008) 105-110.
[9] X.P. Zhu, Z.C. Xu, S.M. Miao, M.K. Lei. Magnetically insulation of the ion diode used for high-intensity pulsed ion beam, Surface and Coatings Technology, 201 (2007) 5264-5268.
[10] X.P. Zhu, Z.H. Dong, X.G. Han, J.P. Xin, M.K. Lei. Lifetime of anode polymer in magnetically insulated ion diodes for high-intensity pulsed ion beam generation, Review of Scientific Instruments, 78 (2007) 023301.[11] X.P. Zhu, T. Suzuki, T. Nakayama, H. Suematsu, W. Jiang, K. Niihara, Underwater laser ablation approach to fabricating monodisperse metallic nanoparticles. Chemical Physics Letters, 427 (2006) 127-131.
[12] X.P. Zhu, T. Yukawa, M. Hirai, H. Suematsu, W. Jiang, K. Yatsui, H. Nishiyama, Y. Inoue. X-ray photoelectron spectroscopy characterization of oxidated Si particles formed by pulsed ion-beam ablation. Applied Surface Science, 252 (2006) 5776-5782.
[13] X.P. Zhu, T. Yukawa, T. Kishi, M. Hirai, H. Suematsu, W. Jiang, K. Yatsui. Synthesis of light-emitting silicon nanoparticles by intense pulsed ion-beam evaporation. Journal of Nanoparticle Research, 7 (2005) 669-673.
[14] X.P. Zhu, H. Suematsu, W. Jiang, K. Yatsui, M.K. Lei. Pulsed-ion-beam nitriding and smoothing of titanium surface in a vacuum. Applied Physics Letters, 87 (2005) 093111.
[15] M.K. Lei, X.P. Zhu, D.M. Guo. Reducing Geometrical, Physical and chemical constraints in surface integrity of high performance stainless steel components by surface modification. Transactions of the ASME, Journal of Manufacturing Science and Engineering, 138 (2016) 044501.
[16] M.K. Lei, X.P. Zhu, Y.P. Li, D.M. Guo. Significance of surface integrity on high performance manufacturing by surface modification. International Journal of Advanced Manufacturing Technology, 82 (2016) 1831-1842.
[17] M.K. Lei, X.P. Zhu, C. Liu, J.P. Xin, X.G. Han, P. Li, Z.H. Dong, X. Wang, S.M. Miao. A novel shock processing by high-intensity pulsed ion beam. Journal of Manufacturing Science and Engineering- Transactions of the ASME, 131 (2009) 031013
[18] F.G. Zhang, X.P. Zhu, M.K. Lei. Microstructural evolution and its correlation with hardening of WC-Ni cemented carbides irradiated by high-intensity pulsed ion beam. Surface and Coatings Technology, 206 (2012) 4146-4155.
[19] X.G. Han, X.P. Zhu, M.K. Lei. Electrochemical properties of microarc oxidation films on a magnesium alloy modified by high-intensity pulsed ion beam. Surface and Coatings Technology, 206 (2011) 874-878.
[20] J.P. Xin, X.P. Zhu, M.K. Lei. On time-of-flight ion energy deposition into a metal target by high-intensity pulsed ion beam generated in bipolar-pulse mode. Surface and Coatings Technology, 206 (2011) 879-883.
[21] J.P. Xin, X.P. Zhu, M.K. Lei. Significance of time-of-flight ion energy spectrum on energy deposition into matter by high-intensity pulsed ion beam. Laser and Particle Beams, 28 (2010)429-436.
[22] J.P. Xin, X.P. Zhu, M.K. Lei. Initial plasma of a magnetically insulated ion diode in bipolar-pulse mode. Physics of Plasmas, 15 (2008) 123108.
[23] X. Wang, X.P. Zhu, M.K. Lei, J.S. Zhang. Influence of high-intensity pulsed ion beam irradiation on the creep property of 316L stainless steel. Nuclear Instruments and Methods in Physics Research B, 259 (2007) 937-942.
[24] S.M. Miao, X.P. Zhu, M.K. Lei. Numerical analysis of ablated behaviors on titanium irradiated by high-intensity pulsed ion beam. Nuclear Instruments and Methods in Physics Research B, 229 (2005) 381-391.
[25] 朱小鵬, 董志宏, 劉臣, 韓曉光, 雷明凱. 強流脈衝離子束表面再製造技術原理與套用. 中國表面工程, 2006, 19(5+): 143-145.
[26] 吳志立, 朱小鵬, 雷明凱. 高功率脈衝磁控濺射沉積原理與工藝研究進展. 中國表面工程. 25(5) (2012) 15-20.
[27] 張鋒剛, 朱小鵬, 王明陽, 雷明凱. 強流脈衝離子束輻照WC-Ni硬質密封材料表面改性研究. 金屬學報, 47(7) (2011) 958-964.
工作成果(獎勵、專利等)
授權及申請專利
[1] 導體電爆炸電漿基低能金屬離子注入裝置,中國發明專利(CN101845616A)
[2] 計算機自動控制的高功率脈衝磁控濺射設備及工藝,中國發明專利(CN201210400022.8)
[3] 泡沫塑膠高功率脈衝磁控濺射表面金屬化方法,中國發明專利(CN201310078681.9)
[4] 核級泵泵軸用超高氮奧氏體相擴散硬化覆蓋層,申請號:201210473156.2
[5] 工業化自動控制的電漿源滲氮裝置及其工藝,申請號:201210334758.X

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