长海博文 - 苏州大学 - 沙钢钢铁学院

个人简介

2017/6-至今苏州大学特聘教授 2010/01-2017/05 中铝苏州有色金属研究院副院长，教授 2010/11-2017/05 中国铝业公司首席工程师 2011/03-至今北京科技大学兼职教授 2012/03-至今湖南大学兼职教授 2015/11-至今大连理工大学兼职教授 2004/03-2009/03 东北大学兼职教授 1993/04月-2009/12 日本轻金属株式会社铸造研发中心副主任，主席研究员 1993/04-1997/10 日本国立电气通信大学机械制御工学专业博士 1991/04-1993/03 日本国立电气通信大学机械制御工学专业硕士 1983/09-1987/06 机械部洛阳矿山机械研究所助理工程师 1979/09-1983/07 太原重型机械学院矿山机械学士学术/社会兼职 2012/06-至今国际铝合金大会（ICAA）国际专家委员会委员 2012/10-至今国际材料大会（THERMAC）国际专家委员会委员 2013/10-至今国家汽车轻量化创新联盟专家委委员 2014/10-至今中国有色金属加工工业协会轻金属分会副理事长 2016/08-至今中国机械工程学会铸造分会理事 2017/03-至今广东省轻合金产业技术创新联盟专家委主任 2017/06-至今长三角压铸业联盟专家委副主任

研究领域

金属凝固与成形科学基础，高强高韧轻合金材料制备，先进结构材料制备及加工，汽车轻量化先进结构材料及零部件

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

1. Lei Li, Chunyan Ban, Xuchen Shi, Haitao Zhang, Yubo Zuo, Qingfeng Zhu, Xiangjie Wang, Jianzhong Cui, Hiromi Nagaumi, Influence of a high magnetic field on the solidification structures of ternary Al–Fe–Zr alloy, Journal of Materials Research, DOI: https://doi.org/10.1557/jmr.2017.2, 1-10. 2. Lei Li, Chunyan Ban, Xuchen Shi, Haitao Zhang, Yubo Zuo, Qingfeng Zhu, Xiangjie Wang, Hui Zhang, Jianzhong Cui, Hiromi Nagaumi, Effects of a high magnetic field on the primary zinc-rich crystals in hypoeutectic Zn-Sn alloy, Journal of Crystal Growth, 463:59–66. 3. Lei Li, Chunyan Ban, Xuchen Shi, Haitao Zhang, Minghui Cai, Haitao Liu, Jianzhong Cui, Hiromi Nagaumi, Crystallographic growth pattern of zinc-rich plate-like cells under a high magnetic field, Materials Letters, 185: 447–451. 4. Yi Xu, Hiromi Nagaumi*,Yi Han,KeMa,ShijieGuo, Gongwang Zhang, HaitaoZhang, TongguangZhai “The Deformation Behavior and Microstructure Evolution of a Mn- and Cr-Containing Al-Mg-Si-Cu Alloy During Hot Compression and Subsequent Heat Treatment”, Metallurgical and Materials Transactions A, 48(3),(2017) 1355-1365. 5. Xiao-xiong Luo, Hai-tao Zhang, Xing Han, Shi-jie Guo3, Dan-dan Chen, Jian-zhong Cui, and Hiromi Nagaumi: Development of inclusions in 3104 alloy melt during heating and holding treatments, International Journal of Minerals, Metallurgy and Materials, 23 (6) 2016, 637-644. 6. Yan Jin, Pei Cai, Wei Wen, Hiromi Nagaumi, Bin Xu, Yuanbin Zhang, Yongguang Zhai:The anisotropy of fatigue crack nucleation in an AA7075 T651 Al alloy plate, Materialia Science and Eegineering A, 622 (2015) 7-15. 7. Shi-jie Guo, Yi Xu, Yi Han, Jin-yan Liu, Guan-Xia Xue, Hiromi Nagaumi: Near net shape casting process for producing high strength 6xxx aluminum alloy automobile suspension parts, Trans. Nonferrous Met. Soc. China 24(2014)2393-2400. 8. Yi Han, Ke Ma, Lian Li, Wei Chen, Hiromi Nagaumi: Study on microstructure and mechanical properties of Al–Mg–Si–Cu alloy with high manganese content, Materials and Design 39 (2012) 418–424 9. Umeda, T, Thirathipviwat, P, Supradist, M, Nagaumi H: Microsegregation development of heavily electromagnetically stirred melt of super high strength Al-10Zn-2·5Mg-2·3Cu alloy, International Journal of Cast Metals Research. 24, (2011) 1364-0461. 10. H.Nagaumi, S.Suzuki, T. Okane and T. Umeda: Hot Tearing of Machinability Improved 2xxx Aluminum Alloy of High Tin Content with Manganese and Chromium Addition, Materials Transactions., 49, (2008), p 324-330. 11. K. Kaekwan, T. Pramote, S. Mawin, H. nagaumi and T. Umeda: Microstructures of super high strength Al-10Zn-2.5Mg-2.3Cu-0.14Zr alloys under electromagnetically stirred direct chill casting, International Journal of Cast Metals Reserch, 21, (2008) 12. Y. Zuo, H. nagaumi and J. Z. Cui: Study on the sump and temperature field during low frequency electromagnetic casting a superhigh strength Al–Zn–Mg–Cu alloy, Materials Processing Technology, 197, (2008), p 109-118. 13. Chaijaruwanich, A, Lee, PD, Dashwood, RJ, Youssef, YM, Nagaumi, H: Evolution of pore morphology and distribution during the homogenization of direct chill cast Al-Mg alloys, ACTA MATER, 2007, Vol: 55, Pages: 285 - 293, ISSN: 1359-6454. 14. H. Zhang, H. Nagaumi and J. Cui: Coupled modeling of electromagnetic field, fluid flow, heat transfer and solidification during low frequency electromagnetic casting of 7xxx aluminum alloys Part 2: The effects of electromagnetic parameterson casting processes, Materialia Science and Eegineering A,448 (2007) 177-188. 15. H. Zhang, H. Nagaumi and J. Cui: Coupled modeling of electromagnetic field, fluid flow, heat transfer and solidification during low frequency electromagnetic casting of 7xxx aluminum alloys Part 1: Development of a mathematical model and comparison with experimental results, Materialia Science and Eegineering A,448 (2007) 189-203. 16. A. Chaijaruwanich, R. J. Dashwood, P. D. Lee and H. Nagaumi: Pore evolution in an Al-6wt%Mg alloy during hot rolling, Acta Materialia. 54 (2006), 5185-5194. 17. Y. M. Youssef, A. Chaijaruwanich, R. W. Hamilton, H. Nagaumi, R. J. Dashwood and P. L. Lee: X-ray microtomographic characterisation of pore evolution during homogenisation and rolling of Al-6Mg, Materials Science and Technology, 22-9 (2006), 1087-1093. 18. Z.H. Zhao, J.Z.CUI, H. Nagaumi: Effect of low-frequency magnetic fields on microstructures of horizontal direct chill casting 2024 aluminum alloy, Materials Transactions., 46-8 (2005), 1903-1907. 19. P. D. Lee, R.C.Atwood, R.J. Dashwood, H. Nagaumi: Modeling of Porosity Formation in Direct Chill Cast Aluminum-Magnesium Alloys, Materialia Science and Eegineering A328 (2002) 213-222. 20. H. Nagaumi: Prediction of Porosity Contents and Examination of Porosity Formation in Al-4.4%Mg DC Slab, Science and Technology of Advanced Materials. 2 (2001) 49-57.