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武玉英
发布日期:2015-10-01 作者: 浏览次数:

 

 

武玉英

出生年月

19825

博士

专业技术职务

教  授

博导聘任时间

20197

行政职务

学术团体兼职

《精密成形工程》、《特种铸造及有色合金》编委;J   Alloy CompdComposite part B等期刊审稿人

1. 学习和工作经历

1999/09-2003/06,山东大学,材料科学与工程学院,本科

2003/09-2008/06,山东大学,材料科学与工程学院,博士

2008/07-2010/12,山东大学,材料科学与工程学院,讲师

2011/01-2019/08,山东大学,材料科学与工程学院,副教授

2019/09至今,山东大学,材料科学与工程学院,教授

 

2. 研究领域介绍

1. 铝合金的强韧化研究

2. 特种晶种合金的制备

3. 金属的液固相关性

3. 取得科研成果情况

近几年发表论文情况:

1. W.T. Yuan, Y.Y. Wu*, C.C. Wu, S. Zhao, X.F. Liu, Evolution of amorphous boron transformed   into crystal nanospheres under eletctron beam irradiation, Results in   Physics, 2020,16:102841

2. S. Zhao, Y.Y. Wu*, B, Zhou, X.F. Liu, Synthesis of boron nanosheets in copper medium,   Scientific Report, 2019, 9: 17337

3. X.L. Cui, H.W. Cui, Y.Y.   Wu*, X.F. Liu, The improvement of electrical conductivity of hypoeutectic   Al-Si alloys achieved by composite melt treatment, Journal of Alloys   and Compounds, 2019, 788, 1322-1328

4. X.L. Cui, Y.Y.   Wu*, X.F. liu, Effect of Mn on growth mechanism and morphology   evolution of CrB2 in Al melt, Materials Letters, 2019, 238:229-232

5. F.C. Meng, Y.Y.   Wu*, K.Q. Hu, Y. Li, Q.Q. Sun, X.F. Liu, Evolution and Strengthening   Effects of the Heat-Resistant Phases in Al-Si Piston Alloys with Different   Fe/Ni Ratios, Materials, 2019, DOI:10.3390/ma12162506

6. Yuying Wu, Zuxin Sun, Shuo Zhao,   Xiaoxiao Han and Xiangfa Liu, Growth mechanisms of fiber-like and   dendrite-like boron in a Cu melt, CrystEngComm, 2018, 20, 1970

7. Wu Yuying, Liu Xiangfa, Effect of AlB2   on the P-threshold in Al-Si alloy, Results in Physics, 2018,   9: 734-739

8. Zhao Shuo, Wu   Yuying*, Sun Zuxin, Zhou Bo, Liu Xiangfa, Superhard Copper Matrix   Composite Reinforced by Ultrafine Boron for Wear-Resistant Bearings, ACS   Applied Nano Materials, 2018, 1(10): 5382–5388

9. X.L. Cui, Y.Y. Wu*,   H.W. Cui, G.J. Zhang, B. Zhou, X.F. Liu*, The   improvement of boron treatment efficiency and electrical conductivity of   AA1070Al achieved by trace Ti assistant, Journal of Alloys and   Compounds, 2018, 735:62-67

10. X.F. Du, T. Gao, Z. Qian, Y.Y. Wu, X.F. Liu, The in-situ   synthesis and strengthening mechanism of the multi-scale SiC particles in   Al-Si-C alloys, Journal of Alloys and Compounds, 2018, 750, 935-944

11. H.B. Yang, T. Gao, Y.Y. Wu, H.N. Zhang, X.F. Liu, Microstructure   and mechanical properties at both room and high temperature of in-situ TiC   reinforced Al–4.5Cu matrix nanocomposite, Journal of Alloys and Compounds,   2018, 767, 606-616

12. K.Q. Hu, X. Ma, T. Gao, Q.F. Xu, Y.Y. Wu, X.F. Liu, Morphological   transformation mechanism of eutectic Si phases in Al–Si alloys by nano-AlNp,   Journal of Alloys and Compounds, 2018, 765, 113-120

13. Y.Y. Wu, Y. Li, H.W. Chen et al., Growth of single crystalline boron nanotubes in a Cu alloy, CrystEngComm,   2017, 31:4510-4518

14. Y.Y. Wu*, Z.X. Sun, H.W. Chen* et al. A simple method to prepare boron spheres in Cu   alloy, Mater. Lett., 2017, 205:24-27

15. Z.X. Sun, Y.Y.   Wu*, X.F. Liu et al. Growth mechanisms of alpha-boron and beta-boron in   a copper melt at ambient pressure and its stabilities, CrystEngComm, 2017, 19:3947-3954

16. Z.X. Sun, Y.Y.   Wu*, Y.F. Li, Hui Li, H.W. Chen, X.F. Liu, The evolution mechanism of   boron nanoparticles from sphere into in copper melts, Mater. Lett., 2017,   189:240-243

17. X. Cui, Y. Wu*,   G. Zhang, Y. Liu, X. Liu, Study on the Improvement of Electrical Conductivity   and Mechanical Properties of Low Alloying Electrical Aluminum Alloys,   Composite part B: Engineering, 2017, 110:381-387

18. X.L. Zhou, Y.Y.   Wu*, Y.F. Li, L.Wu, T. Gao, X.F. Liu, Absorbing formation mechanism   of AlP on TiB2 substrate and their application as high efficiency nucleating   agent in Al-45Si alloy, J. Alloy Compd. 2017, 693: 853-858

19. G.J. Zhang, Y.Y. Wu*, H.B. Yang, G.L. Liu, Q.Q. Sun, X.F. Liu, Influence of Anti Zr-poisoning   Al-Ti-B-C Master Alloy on Mechanical Properties of 7050 Aluminum Alloy, Journal   of Materials Engineering, 2017, 45:1-8  

20. Z.X. Sun, Y.Y.   Wu*, X.L.Cui, G.J. Zhang, Fabrication and properties of in situ B13P2   reinforced Cu-based composites, Materials Science Forum, 2017, 898:1007-1014

21. 武玉英,孙谦谦,刘桂亮,刘相法,Al-P系晶种合金的研究与应用,精密成形工程,20179(5): 57-62

22. X.L. Zhou, Y.Y.   Wu*, Y.F. Li, L.Wu, T. Gao, X.F. Liu, Evolution of a novel   Si-18Mn-16Ti-11P alloy in Al-Si melt and its influence on microstructure and   properties of high-Si Al-Si alloy, Results in Physics, 2016, 6: 737-745.

23. X.L.CuiY.Y.Wu*X.F. Liu, Effects of   grain refinement and boron treatment on electrical conductivity and   mechanical properties of 1070 alloy, Materials & Design, 2015, 86:397-403

24. X.L. Cui, Y.Y.   Wu*, X.F. Liu, Microstructural characterization and mechanical   properties of VB2/A390 composite alloy. Journal of Materials   Science & Technology, 2015, 31:1027-1033

25. X.L. Cui, Y.Y. Wu*,   T Gao, X.F. LiuPreparation of a novel Al–3B–5Sr master alloy and its   modification, Journal of Alloys and Compounds, 2014, 615:906-911

26. X.L. Cui, Y.Y.Wu*,   T.Gao, X.F.Liu, Influence   of preparation temperature on morphology evolution and growth mechanism of   CrB2 in Al–Cr–B alloys, Materials Letters, 2014, 118:176–179

27. Xiangzhen Zhu, Yuying Wu, Chong Li, Pengting Li, Huan   Qiao, and Xiangfa Liu. The Dispersive Orientated-Precipitation of AlP on   Alumina Film and Its Effect on the Primary Si Gathering Behavior in the Al-Si   Alloy Surface Layer. CrystEngComm, 2014, 16(25): 5583-5590

28. Du, Xiaofan; Gao, Tong; Wu Yuying; Liu, Xiangfa, Effects of copper addition on the in-situ synthesis   of SiC particles in Al-Si-C-Cu system Source: Materials and Design, 2014, 63:194-199

29. Gao, Tong; Wu, Yuying;   Li, Chong; Liu, Xiangfa, Morphologies and growth mechanisms of   α-Al(FeMn)Si in Al-Si-Fe-Mn alloy Source: Materials Letters, 2013, 110:191-194

30. Xiaoli Cui, Yuying   Wu*, Tong Gao, Chong Li, Jinfeng Nie, Xiangfa Liu, In situ CrB2   and its effect on the mechanical properties of A390 alloy,   Materials Characterization, 2013, 86:296–302

授权发明专利:

1. 武玉英,刘相法,丁同明,一种铝-硅合金用除钙剂及其制备方法,专利号:ZL201010593187.2

2. 武玉英,崔晓丽,刘相法,一种六硼化钙增强铝基复合材料的制备方法,专利号:ZL201310165038X

3.武玉英,刘相法,崔晓丽,申艳微,一种富硼微纳米线的制备方法,专利号:ZL201410140561.1

4. 武玉英,刘相法,边秀房,一种镍--硼中间合金及其制备方法,专利号:ZL200610044962.2

5. 武玉英,刘相法,张国华,李辉,冯增建,一种活塞用铝基复合材料及其制备方法,专利号:ZL200910013842.X,授权日:2010212
 6. 刘相法,武玉英,边秀房,一种铜--硼中间合金及其制备方法,专利号:ZL200610044961.8
  7. 刘相法,武玉英,刘相俊,乔进国,边秀房,一种低熔点铜-磷基中间合金及其制备方法,专利号:ZL200310105444.3

8. 刘相法,刘相俊,武玉英,一种硅基中间合金及其制备方法,专利号:ZL200610069260.X

9. 刘相法,左敏,姜琨,武玉英,一种铝--磷中间合金及其制备方法,专利号:ZL200910016834.0

10. 刘相法,周晓璐,朱向镇,武玉英,一种制备硅粉的方法,专利号:ZL201510582093.8

11. 刘相法,孙谦谦,韩梦霞,武玉英,一种铝--锡晶种合金及其制备方法,专利号:ZL2019101565933

获得科技奖励:

1. 纳米晶种合金系列产品与耐热高强轻金属材料的创制及应用,山东省技术发明一等奖(技术发明)2017,(第二位)

2. 晶种型中间合金及其系列产品开发与应用技术,教育部高等学校科学研究优秀成果二等奖(技术发明)2014,(第二位)

3. 硅磷和铝磷系动机活塞材料强化新技术,山东省技术发明二等奖,2010,(第三位)

 

4. 承担科研项目情况

1)国防课题,全波段****制造,2019-012024-12 在研,主持;

2)山东省重点研发计划,公益类,2019GGX102013,微纳米Al3BC/铝基晶种材料的原位合成与结构功能一体化设计,2019-012020-12,在研,主持;

3)国防课题,新型****研究,2018-012021-12,在研,主持;

4)山东省自然科学基金,面上项目,ZR201702200041,铝硅活塞合金高温增强机制的研究,2018-012020-12,在研,主持;

5)山东大学青年学者未来计划项目,2016-072020-06,在研,主持;

6)山东省科技厅,泰山学者攀登计划,高强低耗船舶发动机活塞研发及产业化项目,2014-012016-12,已完成,主持;

7)企业横向,铝合金摆臂的设计与开发,2014-102015-10,已完成,主持;

8)企业横向,导电轨用铝合金细化剂的开发,2014-122015-06,已完成,主持;

9973国家重点基础研究发展计划,2012CB825702、无序合金的熔化规律及其熔体结构、2012-062016-08,已完成,参与;

10)国家自然科学基金,青年基金,51001065Al-Si熔体中AlP异质形核界面原子吸附选择规律性研究,2011-012013-12,已完成,主持;

11)山东省中青年科学家科研奖励基金,BS2009CL035,铝硅活塞合金硼/碳除钙及相关中间合金的研究,2009-122012-12,已完成,主持

 

5. 其他

联系方式

13573147099

联系地址

济南市经十路17923号山东大学千佛山校区材料科学与工程学院

电子邮箱

wuyuying@sdu.edu.cn

 

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