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喻海良
一分努力一分收获。
个人简介


**********联系邮箱: hailiang@uow.edu.au*或者yuhailiang@csu.edu.cn*************
 
教育经历

2003.09- 2009.01

东北大学 轧制技术及连轧自动化国家重点实验室 博士学位(辽宁省优博)

1999.09-2003.07

东北大学 材料与冶金学院 本科(辽宁省普通高校优秀毕业生)

工作经历

2016.11-

中南大学 机电学院/高性能复杂制造国家重点实验室 升华学者计划特聘教授(通过教授职称认定)

2017.01-2019.12

澳大利亚 伍伦贡大学 机械、材料、机电一体化系 荣誉高级研究员

2014.06-2016.12

澳大利亚 伍伦贡大学 机械、材料、机电一体化系 研究员

2011.06- 2014.06

澳大利亚 伍伦贡大学 机械、材料、机电一体化系 校长基金博士后研究员

2011.05- 2012.04

沈阳大学 机械工程学院 教授(2011年9月通过教授职称评审)

2009.09 -2011.08

清华大学 机械工程系 博士后研究员

2006.04-2011.05

东北大学 轧制技术及连轧自动化国家重点实验室 助教

获奖

2016

Journal of Materials Engineering and Performance杰出审稿人

2012

教育部科技进步奖二等奖

2011

伍伦贡大学校长基金

2010

辽宁省优秀博士学位论文

研究兴趣
Ø   材料加工过程-组织-性能
Ø   极端情况下材料加工
Ø   材料制备过程裂纹与断裂机理
Ø   金属成型理论与工艺
学术编委
Ø   学术编委, Scientific Reports, 2015-
Ø   责任主编, Modeling and Numerical Simulation of Materials Science, 2011-
Ø   学术编委, International Journal of Manufacturing Engineering, 2013-
Ø   客座编委, Computational Materials Science, 2012-2013
基金资助
2017 高性能复杂制造国家重点实验室自由探索课题,负责人
2016 中国国家自然科学基金面上项目,负责人:51674303.
2016 澳大利亚联邦政府科学研究基金 通用项目,第二共同申请人:DP170103092.
2016 中南大学 升华学者计划启动基金,负责人.
2015 能源管线CRC基金,共同申请人.
2015 中南大学 高性能复杂制造国家重点实验室开放基金 负责人.
2014 伍伦贡大学 校学术委员会基金,负责人.
2013 澳大利亚联邦政府科学研究基金 通用项目,共同申请人:DP130103973.
2013 伍伦贡大学 校学术委员会基金,负责人.
2011 伍伦贡大学 校长基金,负责人.
2011 能源管线CRC基金,共同申请人.
2011 中国国家自然科学基金 青年项目,负责人:51105071.
2011 中国博士后科学基金 特别资助,负责人:201104087.
2010 中国国家自然科学基金 面上项目,第二申请人:51075229.
2010 中国博士后科学基金 一等资助,负责人:201000470012.
2010 教育部博士点科学基金,负责人:20090042120005.
2009 中国自然科学基金 面上项目,共同申请人:50874028.
2007 中国自然科学基金 重点项目,共同申请人:50634030.
2006  中国自然科学基金 重点项目,共同申请人:50534020.
学术论文(已经参与发表期刊和会议论文中,第一作者和通讯作者论文数量>75篇、SCI检索>50篇次、SCOPUS检索≈100篇次)。
1.    Yu H.L.*, Yan M., Lu C., Tieu K., Li H.J., Zhu Q., Godbole A., Li J.T., Su L.H., Kong C. Superstrength of nanograined steel with nanoscale intermetallic precipitates transformed from shock-compressed martensitic steel. Scientific Reports, 2016, 6: 36810.
2.    Yu H.L.*, Su L.H., Lu C., Tieu K., Li H.J., Li J.T., Godbole A., Kong C. Enhanced mechanical properties of ARB-processed aluminum alloy 6061 sheets by subsequent asymmetric cryorolling and ageing. Materials Science and Engineering A, 2016,674: 256-261.
3.    Yu H.L.* Lu C., Tieu K., Li H.J., Godbole A., Kong C., Zhao X. Simultaneous grain growth and grain refinement in bulk ultrafine-grained copper under tensile deformation at room temperature. Metallurgical and Materials Transactions A. 2016,47: 3785-3789.
4.    Yu H.L.*, Lu C., Tieu K., Li H.J., Godbole A., Kong C. Annealing effect on microstructure and mechanical properties of Al/Ti/Al laminate sheets. Materials Science and Engineering A. 2016, 660: 195-204.
5.    Yu H.L.*, Wang H., Lu C., Tieu K., Li H.J., Godbole A., Liu X., Kong C., Zhao X. Microstructure evolution of accumulative roll bonding processed pure aluminium during cryorolling. Journal of Materials Research, 2016, 31: 797-805.
6.    Yu H.L.*, Lu C., Tieu K., Li H.J., Godbole A., Zhang S.H. Special rolling techniques for improvement of mechanical properties of ultrafine-grained metal sheets: A review. Advanced Engineering Materials, 2016, 18(5): 754-769. (Highlight by www.MaterialsViews.com)
7.    Yu H.L.*, Tieu K., Lu C., Liu X., Liu M., Godbole A., Kong C., Qin Q.H. A new insight into ductile fracture of ultrafine-grained Al-Mg alloys. Scientific Reports, 2015, 5: 9568.
8.    Yu H.L.*, Tieu K., Hadi S., Lu C., Godbole A., Kong C. High strength and ductility of ultrathin laminate foils using accumulative roll bonding and asymmetric rolling. Metallurgical and Materials Transactions A, 2015, 46: 869-879. DOI: 10.1007/s11661-014-2640-3.
9.    Yu H.L.*, Tieu K., Lu C., Kong C. Abnormally high residual dislocation density in pure aluminum after Al/Ti/Al laminate annealing for seven days. Philosophical Magazine Letters, 2014, 94: 732-740. DOI: 10.1080/09500839.2014.971902. (Highlight by Australian Microscopy & Microanalysis Research Facility in 2015)
10. Yu H.L.*, Tieu K., Lu C., Godbole A. Investigation of closure of internal cracks during rolling by FE model considering crack surface roughness. International Journal of Advanced Manufacturing and Technology, 2014, 75: 1633-1640.
11. Yu H.L.*, Tieu K., Lu C., Lou Y.S., Liu X.H., Godbole A., Kong C. Tensile fracture of ultrafine Al 6061 sheets by asymmetric cryorolling for microforming. International Journal of Damage Mechanics, 2014, 23: 1077-1095.
12. Yu H.L.*, Tieu K., Lu C., Liu X., Godbole A., Li H.J., Kong C., Qin Q.H. A deformation mechanism of hard metal surrounded by soft metal during roll forming. Scientific Reports, 2014, 4: 5017.
13. Yu H.L.*, Tieu K., Lu C., Godbole A. An investigation of interface bonding of bimetallic foils by combined accumulative roll bonding and asymmetric rolling techniques. Metallurgical and Materials Transactions A, 2014, 45: 4038-4045.
14. Yu H.L.*, Lu C., Tieu K., Kong C. Fabrication of nanostructured Aluminum sheets using four-layer accumulative roll bonding. Materials and Manufacturing Processes, 2014, 29(4): 448-453.
15. Yu H.L.*, Liu X.H., Li X.W., Godbole A. Crack healing in a low-carbon steel under hot plastic deformation. Metallurgical and Materials Transactions A, 2014, 45, 1001-1009.
16. Yu H.L.*, Lu C., Tieu K., Godbole A., Sun Y., Liu M., Su L.H., Tang D.L., Kong C. Fabrication of ultrathin nanostructured bimetal foils by accumulative roll bonding and asymmetric rolling. Scientific Reports, 2013, 3: 2373.
17. Yu H.L.*, Tieu K. Lu C., Liu X.H., Godbole A., Kong C. Mechanical properties of Al-Mg-Si alloy sheets produced using asymmetric cryorolling and ageing treatment. Materials Science Engineering A, 2013, 568: 212-218.
18. Yu H.L.*, Lu C., Tieu K., Liu X.H. Wave motion of rolling force in variable gauge rolling process. Steel Research International, 2013, 84, 1023-1028.
19. Yu H.L.*, Kang J.W., Lu C., Tieu K. Surface temperature difference for analysis of distortion of heavy weak-rigidity castings during heat treatment. Proceedings of the Institution of Mechanical Engineers, Part B, Journal of Engineering Manufacture. 2013, 227(7): 1083-1086.
20. Yu H.L.*, Kiet T., Lu C., Deng G.Y., Liu X.H. Occurrence of Surface Defects on Strips during Hot Rolling Process by FEM. International Journal of Advanced Manufacturing Technology, 2013, 67:1161-1170.
21. Yu H.L.*, Lu C., Tieu K., Liu X.H., Sun Y., Yu Q.B., Kong C. Asymmetric cryorolling for fabrication of nanostructural aluminum sheets, Scientific Reports, 2012, 2: 772.
22. Yu H.L.*, Yu Q.B., Kang J.W., Liu X.H. Investigation on Temperature Change of Cold Magnesium Alloy Strips Rolling Process with Heated Roll. Journal of Materials Engineering and Performance, 2012, 21. 1841-1848.
23. Yu H.L.*, Lu C., Tieu K., Deng G.Y. A numerical model for simulation of crack initiation around inclusion under tensile load. Journal of Computational and Theoretical Nanoscience, 2012, 9(10): 1745–1749.
24. Yu H.L.*, Kang J.W., Wang T.J., et al. Distortion behavior of a heavy hydro turbine blade casting during forced air cooling in normalizing treatment process. Journal of Materials Engineering and Performance, 2012, 21 (1): 55-61.
25. Yu H.L.*, Lu C., Tieu A.K., Yu Q.B., Liu X.H. Tracing of macrosegregation ring in slab during bar rough rolling using FEM. Steel Research International, 2012, 87-90.  
报刊杂志文章

l  喻海良. 青年人才成功需要考验的问题. 今日科苑20175.
l  喻海良. 论文就是硬通货. 中国科学报20171.
l  喻海良. 博士后工作可能遇到的“意外”. 科技导报20164.
l  喻海良. 不如放开手脚让年轻人干吧. 中国科学报201510.
l  喻海良. 实验数据丢失的深刻教训. 科技导报20145.
l  喻海良. 经费切分“统一平台”仍不够.中国科学报201411.
l  喻海良. 在成果中怎样体现出年轻人的创新贡献.求知导刊20141.
l  喻海良. 勿让本科生教育制约人才培养.中国科学报201310.
l  喻海良. 博士后出站后在澳大利亚开展科研工作.科技导报20139.
l  喻海良. 在清华大学做博士后的收获.科技导报20135.
l  喻海良. 让僵硬的大学宿舍管理灵活些.中国科学报20134
l  喻海良. 团队建设不应成为青年成长阻碍.中国科学报20136.
l  喻海良. 院系合并或有助高校去行政化. 中国科学报20132
l  喻海良. “平民教师”的公选校长之问. 中国科学报20131.
l  喻海良. 听过不要钱的图书馆查新服务吗. 光明日报201211.
l  喻海良. 妈妈,您能养我一辈子吗. 中国青年报20128.
l  喻海良. 人才引进莫只当LV的包装盒. 中国科学报20127.
l  喻海良. 眼镜与实验室安全. 中国科学报20126.
l  喻海良. 高考应实行大专业招生. 中国科学报20125.
l  喻海良. 怎样学术独立. 中国科学报20122.
l  喻海良. 选一个有眼界的导师. 中国科学报20121.

授权专利
喻海良, 刘相华, 支颖. 一种预测20辊轧机轧件截面形状的方法,申请号码:200810228091. 9.
喻海良, 康进武, 黄天佑, 胡永沂. 一种用于冷却大型环形铸件的栅形气流导向装置,申请号码:200910219084.7
喻海良, 康进武, 黄天佑, 胡永沂. 一种用于冷却大型环形铸件的喷嘴形气流导向装置,申请号码:20091021190085.1
聂钢,喻海良,康进武,龙海敏,郝小坤,黄天佑,胡永沂. 一种测量热处理过程水轮机叶片翘曲变形的方法. 申请号码:201010245812.4
支颖,刘相华,喻海良. 一种预测板带钢热变形中奥氏体动态再结晶组织演变的方法,申请号码:200910012127.4.
待授权专利
1.    喻海良,崔晓辉,王青山. 一种生产自粘接纳米层状结构的镍铝金属粉的深冷制备工艺. 申请号: 201710447847.8.
2.    喻海良,崔晓辉,王青山. 一种制备极薄金属钼箔材的方法. 申请号: 201710448842.7.
3.    喻海良,崔晓辉,王青山. 一种制备高性能Ti6Al4V合金板材的方法. 申请号: 201710448915.2.
4.    喻海良,崔晓辉,王青山. 一种利用尺度效应制备泡沫层状箔材的方法. 申请号: 201710447880.0.
5.    喻海良,崔晓辉,王青山. 一种制备多组元复合带材的方法. 申请号: 201710448351.2.
6.    喻海良. 一种二维铂系列合金材料的复合轧制制备方法, 申请号:201611187204.6
7.    喻海良. 一种降低铝钛复合板材轧制边裂的方法,申请号:201611187673.8
8.    喻海良. 一种梯度带材的表层连续异步轧制制备方法,申请号:201611188172.1
9.    喻海良. 一种梯度带材的深冷表层连续轧制制备方法,申请号:201611188205.2
10. 喻海良. 一种制备纳米锂铝双金属复合箔材的深冷轧制方法,申请号:201611188156.2
出版书籍
YU Hailiang. FE Analysis of Evolution of Defects during Rolling. 2010, Finite Element Analysis, ISBN: 978-953-307-123-7,Sciyo, 500-560.
盛和太,喻海良,范训益. ANSYS有限元原理与工程应用实例大全,清华大学出版社,2006.12
白藏,喻海良. 通用有限元分析ANSYS8.0基础教程,清华大学出版社,2005.5

 
 
科研项目详细清单
1.    Mechanism of microstructure evolution of ultrafine-grained Al alloys during asymmetric cryorolling
Chief Investigator: Yu H.L., Lu C., Su L.H., et al.
Funding Agency: National Natural Science Foundation of China
Funding Period: 01/01/2017-31/12/2020
Grant number: 51674303
620,000
 
2.    Large-volume gradient materials: manufacturing and deformation mechanism
Chief Investigator: Lu C., Yu H.L.
Funding Agency: Australian Research Council
Funding Period: 01/01/2017-31/12/2019
Grant number: DP170103092
$300,000
 
3.    Investigation on deformation behavior of AA5xxx during asymmetric cryorolling
Chief Investigator: Yu H.L., Lu C.
Funding Agency: Open Research Fund of Key Laboratory of High Performance Complex Manufacturing, Central South University
Funding Period: 01/01/2015-31/12/2016
Grant number: Kfkt2014-01
100,000
 
4.    Dispersion of CO2 in the atmosphere-II
Chief Investigator: Lu C., Liu X., Godbole A., Yu H.L., Michal G.
Funding Agency: Department of Resources Energy and Tourism
Funding Period: 01/09/2014-31/08/2015
$100,000
 
5.    Understanding pipeline damage caused by drilling equipment
Chief Investigator: Lu C., Michal G., Liu X., Yu H.L.
Funding Agency: Energy Pipeline CRC
Funding Period: 01/01/2014-01/01/2017
$279,700
 
6.    An advanced technique for manufacturing ultrathin bimetallic foils
Chief Investigator: Yu H.L.
Funding Agency: URC Small grants, University of Wollongong
  Funding Period: 01/01/2014-31/12/2014
  $12,500
7.    A physically based abrasive wear model for high-speed steel at high temperature
  Chief Investigator: Tieu K., Zhu H.T., Lu C., Yu H.L.
  Funding Agency: Australian Research Council, Discovery Project
  Funding Period: 01/01/2013-31/12/2015
  Grant number: DP130103973
  $310,000
8.    Fabrication of large-size nanostructural aluminium alloy sheet using asymmetric cryorolling
  Chief Investigator: Yu H.L., Lu C.
Funding Agency: URC Small grants, University of Wollongong
  Funding Period: 01/01/2013-31/12/2013
  $10,129
9.    Thermodynamic criterion and mechanism of crack healing in heavy plates rolling process
  Chief Investigator: Yu H.L., Tieu K.
Funding Agency: University of Wollongong
  Funding Period: 15/06/2011-14/06/2014
  $255,000
10. Fracture simulation for gas pipelines-Phase II
  Chief Investigator: Lu C., Michal G., Yu H.L., Davis B., Godbole A, Tieu K., Zhu H.T.
Funding Agency: Energy Pipeline CRC, Australia
  Funding Period: 01/01/2012-31/12/2014
  $190,000
11. Coupled model for fracture propagation
  Chief Investigator: Lu C., Godbole A., Yu H.L., Tieu K.
Funding Agency: Energy Pipeline CRC, Australia
  Funding Period: 01/01/2012-31/12/2013
  $114,000
12. AS2885.1 Toughness Review
  Chief Investigator: Lu C., Wu Y.Y., Michal G., Yu H.L.
Funding Agency: Energy Pipeline CRC, Australia
  Funding Period: 01/01/2011 -31/12/2012
  $96,000
13. Multiscale simulation of internal crack healing during heavy plate rolling
  Chief Investigator: Yu H.L., Zhi Y., Wu H.Y., Zhu F.W., Deng G.Y., Zhao Y.R.
Funding Agency: National Natural Science Foundation of China
  Funding Period: 01/01/2011-31/12/2014
Grant Number: 51105071
250,000
14. Investigation of fragmentation and dispersion of non-metallic inclusions in melt stainless steel under ultrasonic treatment
  Chief Investigator: Kang J.W., Yu H.L., Huang T.Y., et al.
Funding Agency: National Natural Science Foundation of China
  Funding Period: 01/01/2010-31/12/2013
Grant Number: 51075229
360,000
15. Investigation on the evolution of inclusions in melted martensitic stainless steel using ultrasonic treatment and its influence on casting property
  Chief Investigator: Yu H.L.
Funding Agency: Postdoctoral Science Foundation of China
  Funding Period: 01/01/2011-31/12/2011
  Grant Number: 201104087
100,000
16. Numerical simulation and deformation control of heavy castings susceptible to deformation during casting and heat treatment processes
  Chief Investigator: Yu H.L.
Funding Agency: Postdoctoral Science Foundation of China
  Funding Period: 01/01/2010-31/12/2010
  Grant Number: 201000470012
50,000
17. Initiation, propagation, and annihilation of surface cracks during plate rolling
  Chief Investigator: Yu H.L., Chen L.Q., Li Y., Wang L., Li X.W.
Funding Agency: Ministry of Education of China
  Funding Period: 01/01/2010-31/12/2012
  Grant Number: 20090042120005
36,000
18. Mechanism of iron nano-particles in lubrication during cold rolling
  Chief Investigator: Zhang X.M., …Yu H.L., et al.
Funding Agency: National Natural Science Foundation of China
  Funding Period: 01/01/2009-31/12/2011
Grant Number: 50874028
560,000
19. Microstructral evolution and control for special alloy and high-alloy steel during hot rolling
  Chief Investigator: Liu X.H., …Yu H.L., et al.
Funding Agency: National Natural Science Foundation of China
  Funding Period: 01/01/2007-31/12/2010
Grant Number: 50974039
1,500,000
20. Simulation of microstructure evolution during short-period metal manufacturing
  Chief Investigator: Di H.S., …Yu H.L., et al.
Funding Agency: National Program on Key Basic Research Project (973 Program) of China
  Funding Period: 01/01/2006-31/12/2010
Grant Number: 2006CB605208-1
1,100,000
21. Investigation on high speed FEM for on-line prediction during flat rolling
  Chief Investigator: Li C.S., …Yu H.L., et al.
Funding Agency: National Natural Science Foundation of China
  Funding Period: 01/01/2006-31/12/2009
Grant Number: 50534020
1,300,000
22. Evolution of cracks and inclusions during slab rolling   
  Chief Investigator: Yu H.L.
Funding Agency: Northeastern University, China
  Funding Period: 01/01/2006-19/01/2009
30,000
 
 

 
 
学术兼职
 
 
1) 国际学术会议
Ø  International Scientific Committee, 12th International Conference on Numerical Methods in Industrial Forming Processes (NUMIFORM 2016), July 4th-7th 2016, Troyes Cedex, France.
Ø  International Scientific Committee, NUMIFORM 2013, July 6th-10th 2013, Shenyang, China.
Ø  Conference Secretary: 15th International Conference on Advances in Materials and Processing Technologies (AMPT 2012), September 23th-26th 2012, Wollongong, Australia.
 
2) 基金含评专家
Ø  National Natural Science Foundation of China
Ø  Australian Research Council
 
3) 期刊审稿人
Ø  Metallurgical and Materials Transactions A
Ø  International Journal of Advanced Manufacturing Technology
Ø  Journal of Intelligent Manufacturing
Ø  Arabian Journal for Science and Engineering
Ø  Meccanica
Ø  Journal of Materials Engineering and Performance
Ø  Acta Metallurgical Sinica (English Letters)
Ø  Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacturing
Ø  Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science
Ø  Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials Design and Applications
Ø  Journal of Manufacturing Science and Engineering Transaction of ASME
Ø  Chinese Journal of Mechanical Engineering
Ø  Scientific Reports
Ø  Plos One
Ø  Journal of Materials Science and Technology
Ø  Materials and Design
Ø  Journal of Alloys and Compounds
Ø  Transaction of Nonferrous Metals Society of China
Ø  Applied Thermal Engineering
Ø  Applied Surface Science
Ø  International Journal of Materials and Product Technology
Ø  International Journal of Materials Research
Ø  AIMS Materials Science
Ø  International Journal of Mechanical Science
Ø  Materials Science and Engineering A
Ø  Materials
Ø  Advanced in Mechanical Science