李落星：男，教授，博士生導師

李落星，男，1968 年生，湖南汨羅人，湖南大學汽車車身先進設計與制造國家重點實驗室教授、博士生導師，實驗室副主任，機械工業(yè)輕量化結構先進成形制造重點實驗室主任。研究領域主要涉及汽車輕量化技術，汽車用鋁、鎂、鈦等輕金屬材料高溫變形行為、成形過程的模擬仿真與優(yōu)化理論及新技術、新工藝開發(fā)等。完成香港特區(qū)及荷蘭政府各部門及企業(yè)委托的科研項目多項，目前主持國家“十一五”科技支撐計劃重點項目、科技部國際合作重點項目、湖南省科技重大專項、國家自然基金面上項目以及湖南省杰出青年基金項目等多項省部級以上的重要科研課題。取得了一批國際公認的研究成果, 發(fā)表論文80余篇，SCI 收錄論文30余篇篇，EI 收錄50余篇篇，SCI他引200余次。

Tel：0731-88821571 Email: llxly2000@163.com

教育經歷

(1)1987年－1991年，中南工業(yè)大學，材料科學與工程系，學士學位

(2)1991年－1994年，中南工業(yè)大學，材料科學與工程系，碩士學位

(3)1997年－2000年：中南大學，材料科學與工程學院，獲博士學位
 
研究工作經歷

(1)1994年－1997年：長沙礦冶研究院材料研究所，工程師

(2)2000年－2001年，City University of Hong Kong，MEEM, Post Doc

(3)2001年－2002年，TU Delft，Departmeng of Materials, Research Fellow

(4)2002年－2004年，TU Delft，Departmeng of Materials, Senior Research Fellow

(5)2004年－2011年，湖南大學材料學院，教授，博士生導師

(6)2011年－今，湖南大學機械與運載工程學院，教授，博士生導師

(7)2009年－今，汽車車身先進設計與制造國家重點實驗室副主任

 學術任職

(1)中國中國機械工程學會塑性工程學會常務理事

(2)中國機械工程學會材料學會理事

(3)湖南省模具設計與制造學會副理事長

(4)機械工業(yè)教育指導委員會，材料成形與控制專業(yè)指導委員會委員

(5)汽車車身先進設計與制造國家重點實驗室學術委員會員

(6)The Asian Pacific Conference on Fracture and Strength - Mechanics and Materials 2012, Korea，Program Committee

(7)The International Conference on Extrusion and Benchmark 2011, Italy, Scientific Committee
 
主要獲獎與榮譽

(1)2008, J. Mater. Process. Technol., Most Cited Author Award（第1完成人）

(2)2010, J. Mater. Process. Technol., Most Cited Author Award（第1完成人）

(3)2010, Mater. Character., Top 10 Cited Award（第2完成人）

(4)2010年，中國高等學�？茖W研究科技進步二等獎（第1完成人）

(5)2008年，湖南省科技進步二等獎（第1完成人）

(6)2009年，國務院僑辦首屆“重點華僑華人創(chuàng)業(yè)團隊”資助獲得者

(7)2008年，第二屆通用汽車中國高校汽車領域創(chuàng)新人才獎

(8)2008年，湖南省杰出青年基金

(9)2005年，教育部“新世紀優(yōu)秀人才計劃”
 
授權發(fā)明專利

(1)李落星，白星，梁桂平等，一種含Ca和Sr的耐熱變形鎂合金，ZL200910042537.3

(2)李落星，胡基貴，張輝等，基于數值模擬的高強鋁、鎂合金等溫擠壓方法，ZL200710035112.0；

(3)李落星，周佳，王冠，一種結合在線淬火控溫的彎曲型材短流程加工方法和裝置，ZL201010240628.0。
 
發(fā)表的主要論文

(1)Liqiang Zhang, Luoxing Li, Shiuping Wang, Biwu Zhu. Optimization of LPDC Process Parameters Using the Combination of Artificial Neural Network and Genetic Algorithm Method, Journal of Materials Engineering and Performance.（in press）

(2)Li, L., He, F., Liu, X., Lou, Y., Zhou, J., Duszczyk, J.. Simulation of the grain structure evolution of a Mg-Al-Ca-based alloy during hot extrusion using the cellular automation method, Key Engineering Materials, 491 2012, pp.265-272, Progress in Extrusion Technology and Simulation of Light Metal Alloys.

(3)Qun Wang, Zhenhua Chen, Luoxing Li, Guibing Yang. The parameters optimization and abrasion wear mechanism of liquid fuel HVOF sprayed bimodal WC–12Co, Surface and Coatings Technology, 206(8–9) 2012, pp. 2233-2241.

(4)Qun Wang, Xibin Wu, Luoxing Li, Zhigang Li, Sixin Lin, Microstructure and Properties of HVOF Spraying WC-10Co-4Cr Coatings, 27, 2012, pp. 1758-1765

(5)Yan Lou, Li Luoxing, Jia Zhou, Luan na, Deformation behavior of Mg–8Al magnesium alloy compressed at medium and high temperatures, Materials characterization, Article in Press 2011,1-8.

(6)Yan Lou, Luoxing Li. Microstructure and Creep Properties of Casting Mg-8Al-0.3Mn Alloy Containing Ca and Sr, Advanced Materials Research, 189-193 2011, pp.1386-1392.

(7)Jia Zhou, Luo-xing Li, Bo Liu, and Yang-sheng Liu ,Deformation Microstructures of Mg-3Al-1Zn Magnesium Alloy Compressed Over Wide Regions of Temperature and Strain Rate, Journal of Materials Engineering and Performance, 20(1) 2011, pp.133-138.

(8)J. Zhou, L. Li, J. Mo, J. Zhou and J. Duszczyk. Prediction of the extrusion load and exit temperature using artificial neural networks based on FEM simulation, Key Engineering Materials 424 2010, pp. 241-248.

(9)L. Li, J. Zhou, X. He, J. Zhou and J. Duszczyk. A case study to solve the problem of wall thickness attenuation during extrusion to produce a complex hollow magnesium profile, Key Engineering Materials, 424 2010, pp.227-234.

(10)Lou Yan, Li Luoxing, Luan Na. Flow Stress Correction of AZ80 Magnesium Alloy for Deformation Heating at High Strain Rates during Hot Compression, Advanced Materials Research,129-131 2010, pp.1326-1330.

(11)Liqiang Zhang, Luoxing Li, Biwu Zhu, Inverse identification of interfacial heat transfer coefficient between the casting and metal mold using neural network, Energy Conversion and Management, 51(10) 2010, pp.1898-1904.

(12)Liqiang Zhang, Luoxing Li, Biwu Zhu, Simulation study on the LPDC process for thin-walled aluminum alloy casting, Materials and Manufacturing Processes, 24 (12) 2009, pp.1349-1353.

(13)Shi-qiang Yang, Ping-hua Lin, Su-ping Yang Yang, Luo-xing Li, Structural and magnetic properties of HoFe11-xMnxTi compounds, Journal of alloys and compounds, 472 (1-2) 2009, pp. 6-8.

(14)Shi-qiang Yang, Chun-Lan Zhang, Ping-hua Lin, Luo-xing Li, Structure and magnetic properties of TbFe11-xMnxTi compounds, Journal of alloys and compounds, 473 (1-2) 2009, pp.280-282.

(15)Hui Zhang, Honggang Zhang, Luoxing Li, Hot deformation behavior of Cu–Fe–P alloys during compression at elevated temperatures, Journal of Materials Processing Technology, 209 (6) 2009, pp. 2892-2896.

(16)Li Luoxing, Lou Yan, Microstructure Evolutions during the Hot Extrusion Process of AZ31B Magnesium Alloy, Chinese Journal of Mechanical Engineering, 22(3) 2009, pp.1-6.

(17)L. Li, H. Zhang, J. Hu, J. Zhou, d and J. Duszczyk. Simulation-Based Design of Ram Speed Profile for Isothermal Extrusion, Key Engineering Materials, vol.367 2008, pp.153-160.

(18)LI Luo-xing, LOU Yan, Ram speed profile design for isothermal extrusion of AZ31 magnesium alloy by using FEM simulation, Transactions of Nonferrous Metals Society of China, 18(1) 2008, pp.252-256.

(19)Hui Zhang, Yusong He, Luoxing Li, Tensile deformation and fracture behavior of spray-deposition 7075/15SiCp aluminum matrix composite sheet at elevated temperatures, Materials Characterization, 59(8) 2008, pp.1078-1082.

(20)L. Li, H. Zhang, J. Zhou, J. Duszczyk, Numerical and experimental study on the extrusion through a porthole die to produce a hollow magnesium profile with longitudinal weld seams, Materials & Design, 29(6) 2008, pp.1190-1198.

(21)Hui Zhang, Qiqi Yan, Luoxing Li, Microstructures and tensile properties of AZ31 magnesium alloy by continuous extrusion forming process, Materials Science and Engineering A, 486 (1-2)2008, pp. 295-299.

(22)Hui Zhang, Luoxing Li, Deng Yuan, Dashu Peng, Hot deformation behavior of the new Al–Mg–Si–Cu aluminum alloy during compression at elevated temperatures, Materials Characterization, 58 (2) 2007, pp. 168-173.

(23)L. Li, J. Zhou, J. Duszczyk, Determination of a constitutive relationship for AZ31B magnesium alloy and validation through comparison between simulated and real extrusion, Journal of Materials Processing Technology, 172(3) 2006, pp. 372-380.

(24)L. Li, J. Zhou , J. Duszczyk, Prediction of temperature evolution during the extrusion of 7075 aluminium alloy at various ram speeds by means of 3D FEM simulation, Journal of Materials Processing Technology, 145 (3) 2004, pp. 360-370 .

(25)J. Zhou, L. Li, J. Duszczyk, Computer simulated and experimentally verified isothermal extrusion of 7075 aluminium through continuous ram speed variation, Journal of Materials Processing Technology, 146 (2) 2004, pp. 203-212.

(26)J. Zhou, L. Li, J. Duszczyk, 3D FEM simulation of the whole cycle of aluminium extrusion throughout the transient state and the steady state using the updated Lagrangian approach, Journal of Materials Processing Technology, 134 (3) 2003, pp. 383-397.

(27)L. Li, J. Zhou, J. Duszczyk, A 3D FEM simulation study on the isothermal extrusion of a 7075 aluminium billet with a predetermined non-linear temperature distribution, Modelling and Simulation in Materials Science and Engineering, 11 (3) 2003 , pp. 401-416.

(28)L. X. Li, D. S. Peng, Hot Deformation Characteristics of Ti-6Al-4V, Zeitschrift Fur Metallkunde, 94 (9) 2003, pp. 1006-1011.

(29)L. X. Li, D. S. Peng, Flow stress behavior and deformation characteristics of Ti-3Al-5V-5Mo compressed at elevated temperatures, Materials & Design, 23(5) 2002, pp. 451-457.

(30)L. X. Li, K. P. Rao, D. S. Peng, A study on hot extrusion of Ti-6Al-4V using simulations and experiments, International Journal of Mechanical Sciences, 44(12) 2002, pp.2415-2425.

(31)L. X. Li, D. S. Peng, An experiment study of the lubrication behavior of graphite in hot compression tests of Ti-6Al-4V alloy, Journal of Materials Processing Technology, 112(1) 2001, pp. 1-5.

(32)Yong Jiang, Peng Dashu, Li Luoxing, Analysis of clad sheet bounding by cold rolling, Journal of Materials Processing Technology, 105 (1-2) 2000, pp. 32-37.

(33)L. X. Li, D. S. Peng, J. A.Liu，An experimental study of the lubrication behavior of A5 glass lubricant by means of the ring compression test, Journal of Materials Processing Technology, 102(1-3) 2000, pp.138-142.

(34)Li, LX, Peng DS, Luo FH, Zhou ML, Flow stress behavior of Cu13Zn alloy deformed at elevated temperature, Journal of Central South University of Technology, 7 (4) 2000, pp,198-200.

(35)Li, LX Peng DS, Liu ZQ, Study on the lubricities of glass and graphite in the deformation processing of the alloy TC4 at high temperatures, Rare Metal Materials and Engineering, 29 (4) 2000, pp. 239-242.