胡红军

个人简介

胡红军,教授,硕士生导师。任中国兵工学会压力加工分会会员,中国材料学会镁合金分会青年委员会委员,重庆材料学会、重庆表面工程协会会员,汽车零部件教育部重点实验室非固定研究人员。

1996/09-2000/07,获得湖北工业大学热加工工艺及设备专业学士学位;2000/09-2003/07,获得湖北工业大学材料加工工程专业硕士硕士学位;2007.09-2010/06,获得重庆大学材料科学与工程专业博士学位;2013年初至今在重庆解放军后勤工程学院博士后流动站进行博士后研究;2003.07至今,重庆理工大学材料科学与工程学院教师。

在国内外重要刊物如《InternationalJournal of Advanced Manufacturing Technology》、《Ceramics International》、《Advances in Materials Science and Engineering》、《Proceedings of the Institution of Mechanical Engineers, Part B:Journal of Engineering Manufacture》、《Transactions of NonferrousMetals Society of China》、《Journal of Wuhan University ofTechnology》、《金属学报》、《Materials research》、《稀有金属材料与工程》、《International Journal of Machining and Machinability of Materials》、《International Journal of Microstructure & MaterialsProperties》、《Journal of Manufacturing Processes》、《MaterialsScience Forum》、《材料热处理学报》等发表论文40度篇,发表论文共被他人引用500余次;授权专利10多件,其中专利转化或应用3件;编写著作或教材8部。获得2014年重庆市自然科学奖三等等奖1项(排名第1)。

研究领域

轻合金材料与工程;材料科学与工程中的数值模拟仿真

承担的主要项目

[1]基于挤压-剪切复合变形的镁合金晶粒细化和织构调控机制研究,国家自然科学基金青年基金,2012/01-2014/12,25万,主持

[2]军用镁合金部件新型短流程激冷铸挤剪技术应用基础研究中国博士后科学基金第八批特别资助,2015/08-2017/08,15万,主持

[3]军用镁合金部件连续塑性变形的微观组织调控机制研究,中国博士后科学基金第55批面上项目一等资助,2014/06-2016/06,8万,主持

代表性成果

著作和教材

1)胡红军,高性能镁合金挤压剪切制备技术,科学出版社, 2016/3(中国博士后优秀著作资助)

2)张丁非;胡红军;戴庆伟;杨明波;代俊林,高性能镁合金晶粒细化新技术,冶金工业出版社, 2016/1 (国家出版基金资助)

3)胡红军;代兵;周志明,模具制造技术,重庆大学出版社, 2014/6/15

4)胡红军;黄伟九;杨明波,ANSYS在材料工程中的应用,机械工业出版社, 2013/1/15

5)汤爱涛;胡红军;杨明波,计算机在材料工程中的应用,重庆大学出版社, 2008/6/1

6)杨明波;胡红军;唐丽文,计算机在材料科学与工程中的应用,化学工业出版社, 2008/2/1,

7)胡红军;杨明波;张丁非,ANSYS10.0材料工程有限元分析实例教程,电子工业出版社, 2007/4/1

近年代表作

1)Hongjun Hu*; Zhiye Zhai; Yunyang Li; Hao Wang; Junlin Dai,Researches onphysical field evolution of micro-cutting of steel H13 by micron scale ceramiccutter based on finite element modeling, The International Journal of AdvancedManufacturing Technology, 78(9-12), pp 1407-1414, 2015/6/15.

2)Hu,H. -J.; *Huang, W. -J.,Tool life models of nano ceramic tool for turning hardsteel based on FEM simulation and experiments, Ceramics International, 40(7,Part A), pp 8987-8996, 2014/8.

3)Hu,H-J; *Huang, W-J,Studies on wears of ultrafine-grained ceramic tool and commonceramic tool during hard turning using Archard wear model, The InternationalJournal of Advanced Manufacturing Technology, 69(1-4), pp 31-39, 2013/10.

4)Hu,Hong-jun; *Huang, Wei-jiu,Effects of turning speed on high-speed turning byultrafine-grained ceramic tool based on 3D finite element method andexperiments, The International Journal of Advanced Manufacturing Technology,67(1-4), pp 907-915, 2013/7.

5)H.-J.Hu*,H.Wang,Z.-Y. Zhai,Y.-Y. Li,J.-Z. Fan,O.U.Zhongwen,The influences of shear deformation on the evolutions of theextrusion shear for magnesium alloy,The InternationalJournal of Advanced Manufacturing Technology,2014,174(1-4):423-432

6)H-JHu*,H Wang,Z-Y Zhai,Y-YLi,J-Z Fan,Z-W Ou,Effectsof channel angles on extrusion-shear for AZ31 magnesium alloy: modeling andexperiments,The International Journal of Advanced Manufacturing Technology,2014,76(9-12):1621-1630

7)Huang,W-J *,HJ, Hu,Micro-turning of hard steel bysingle-grainceramic cutter based on numerical simulations,Ceramics International,2014,40(8, Part B):13057-13065

8)Hu,Hong-jun*,Grain refinement of Mg–Al alloys by optimization of process parametersbased on three-dimensional finite element modeling of roll casting,Transactions of Nonferrous Metals Society of China, 23(3), pp 773-780, 2013/3.

9) HuHong-jun*; Zhang Ding-fei; Yang Ming-bo; Deng Ming,Grain refinement in AZ31magnesium alloy rod fabricated by extrusion-shearing severe plastic deformationprocess, Transactions of Nonferrous Metals Society of China, 21(2), pp 243-249,2011/2.

10)ZhangDing-fei*; Hu Hong-jun; Pan Fu-sheng; Yang Ming-bo; Zhang Jun-ping,Numericaland physical simulation of new SPD method combining extrusion and equal channelangular pressing for AZ31 magnesium alloy, Transactions of Nonferrous MetalsSociety of China, 20(3), pp 478-483, 2010/3/15.

11)Zhang Ding-fei,Hu Hong-jun*,Pan Fu-sheng,Yang Ming-bo,Zhang

Jun-ping,Numerical and physical simulation of new SPD method combiningextrusion and equal channel angular pressing for AZ31 magnesium alloy,Transactions of Nonferrous Metals Society of China,2010,20(3):478-483

12)HU Hong-Jun* ,ZHANG Ding-fei,PAN Fu-sheng,Die structure optimization of equal channel angular extrusion forAZ31 magnesium alloy based on finite element method,Transactions of Nonferrous Metals Society of China,2010,20(2):259-266

13)H-J.Hu*;W-J. Huang*; G-S. Wu,3D finite element modelling and experimentalresearches onturning steel AISI1013 bynano-crystalline Al2O3 ceramics cutter, InternationalJournal of Machining and Machinability of Materials, 14(3), pp 295-310,2013/3/15.

14)H.J.Hu*; Y.Y. Li; X. Wang; D.F. Zhang; M.B. Yang,Effects of Extrusion–Shear ProcessConditions on the Microstructures and Mechanical Properties of AZ31 MagnesiumAlloy, High Temperature Materials and Processes,10.1515/htmp-2015-0090.

15)HongjunHu*; Zhao Sun; Xiaoqing wang; Zhaiye Zhai; Junlin Dai; Mingbo Yang,

Microstructuresof an AZ61 wrought magnesium alloy fabricated by a novel SPD process usingthermomechanical simulation, Materials Testing, 58(1), pp 43-47, 2016/1/10.

16)HongJun Hu*; Hao Wang; Ding Fei Zhang; Qingwei Dai; Jin Lin Dai; Ming BoYang,CrackPropagation Analysis of Magnesium Rod Processed by Extrusion-shear: NumericalModeling and Experimental Verification, Materials Research, 18(4), pp 873-880,2015/8/15.

17)H.J. Hu*; J.Z. Fan; H. Wang; Z.Y. Zhai; Y.Y. Li; Zhongwen OU,Dry Sliding WearBehavior of ES-Processed AZ31B Magnesium Alloy, Russian Journal of Non-FerrousMetals, 56(4), pp 392-398, 2015/7/15.

18)H-JHu*; Z Ou,The influences of die structure parameters on extrusion force ofmanufacturing AZ31 magnesium alloy, Australian Journal of MechanicalEngineering, 13(2), pp 118-126, 2015/6/15.

19)HuHongjun*; Zhai Zhiye; Wang Hao; Fan JunZhi,Extrusion-shear of AZ31 AlloyBillets with Low Temperature and High Speed by Using Three-dimensional FiniteElement Modeling and Experiments, Materials Research, 17(4), pp 987-995,2014/8/15.

20)胡红军*,镁合金挤压-剪切变形行为的物理和数值模拟研究,稀有金属材料与工程, 42(5), pp 957-961, 2013.

21)HongjunHU*; Dingfei Zhang; Fusheng PAN; Mingbo YANG,Analysis of the Cracks Formationon Surface of Extruded Magnesium Rod Based on Numerical Modeling andExperimental Verification, Acta Metallurgica Sinica, 22(5), pp 353-364,2009/10/15.

22)HuHongjun*; Zhang Dingfei; Pan Fusheng; Yang Mingbo,Thermal-stress simulation ofdirect-chill casting of AZ31 magnesium alloy billets, Journal of WuhanUniversity of Technology-Materials Science Edition, 24(3), pp 376-382, 2009/6.

近年代表性国家发明专利

1)连续激冷铸挤剪细化镁合金材料微观组织的方法及模具(ZL201210119864.6);

2)激冷机械搅拌制备镁合金液态/半固态熔体的方法及装置(ZL201310614979.7);

3)一种高延展性镁合金板材快速加工方法及装置(ZL201310742901.3);

4)连续转角剪切的挤压整形制备镁合金型材的方法和模具(ZL200810233106.0);(导师第一)

5)一种双层金属板带或型材的双向挤压模具及挤压成型方法(ZL201510062848.1)

获得学术奖励

胡红军(1/3),高性能镁合金组织性能调控机制研究,重庆市人民政府,自然科

学奖,三等奖,2015。(胡红军,杨明波,张丁非)