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Zhaoping Lu
发布日期:2013-1-10 17:53:27 阅读次数:9791

English


Zhaoping Lu

Director of State Key Laboratory for Advanced Metals and Materials

University of Science and Technology, Beijing

30 Xueyuan Road, Haidian District, Beijing 100083 P.R.China

Tel.: 086-010-82375387

Fax: 086-010-62233447

Email: luzp@ustb.edu.cn

Web:  http://skl.ustb.edu.cn/News_show.asp?id=203

Research ID: http://www.researcherid.com/rid/A-2718-2009

     

EDUCATION

2001

1995

 

1992

Ph. D., Materials Science, National University of Singapore, Singapore

M. E., Materials Science and Engineering, Huazhong University of Science and Technology, P. R. China

B. E., Materials Science and Engineering, Huazhong University of Science and Technology, P. R. China

 

Professional Experiences

2007-present

Professor, University of Science and Technology Beijing

2004-2006

Research staff, Metals and Ceramic Division, Oak Ridge National Laboratory

2001-2004

Postdoctoral fellow, Metals and Ceramic Division, Oak Ridge National Laboratory

1999-2001

R&D engineer, Kulicke & Soffa Industries Inc., Singapore

 

RESEARCH INTRERSTS

1Research of High Performance Sintered Nd-Fe-B Magnets

2Microstructure, Magnetic Properties and Mechanism of Nanocrystalline Nd-Fe-B Magnets

3Investigation on Samarium Iron Nitrogen Permanent Magnet Materials

4. Rare Earth Giant Magnetostrictive Materials and Fe-Ga Magnetostrictive Materials

 

PROFESSIONAL ACTIVITIES

  • Editor, Intermetallics, 2011-
  • Editorial board, Materials Letters, 2011-
  • Co-organizer, symposium of The 8th International Workshop on Intermetallics and Advanced Materials, ChangSha, China, May 10-13, 2011
  • Organizer, symposium of bulk metallic glasses and high entropy alloys, IUMRS 11th International Conference in Asia, Qingdao, China, September 19-22, 2010.
  • Organizer, symposium of bulk metallic glasses and nanomaterials, The 7th Pacific Rim International Conference on Advanced Materials and Processing (PRICM 7), Cairns, Australia, August 1-5, 2010.
  • Organizer, symposium on bulk metallic glasses and high entropy alloys, CMRS annual meeting, Changsha, June 18-21, 2010.
  • Co-organizer, workshop on Glass formation and mechanical properties of bulk metallic glasses, Xiamen, March 11-14, 2010.
  • Secretary, Xiangshan Conference on Bulk Metallic Glasses, Beijing, April 1-4, 2009.
  • Co-organizer, Amorphous Alloys Symposium, Hangzhou, China, Nov. 19-22, 2008
  • Co-organizer, International conferences of Bulk Metallic Glasses VI, Xian, China, May 12-15, 2008
  • Co-organizer, International workshop on fundamental issues in metallic glasses, Kunming and Guilin, China, Oct. 20-27, 2007
  • Editorial board, Chinese Science Bulletin, 2007-
  • Editorial board, Materials China, 2009-
  • Graduate Student Award Judge, Materials Research Society (MRS), 2005
  • Co-editor (with T.G. Nieh, T Zhang, W. H Wang, C. L Ma, and J Sun) of the proceeding of Sixth International Conference on Bulk Metallic Glasses (BMG VI), , Intermetallics, Volume 17, Issue 4,  Pages 183-284, 2009
  • Reviewer for Appl. Phys. Lett., Acta Mater. and Intermetallics, etc.
  • Reviewer for US Department of Energy proposals, 2006
  • Reviewer for Chinese Natural National Science Foundation proposals, 2007-
  • National Council Member, Committee of the Youth Branch, Chinese Materials Research Society, 2008-
  • National Council Member, Chinese Materials Research Society, 2007-

 

HONORS AND AWARDS

  • Second Prize for Natural in Sciences, Mistery of Eductation, 2011
  • R&D 100 Award, R&D Magazine, 2009
  • Government special allowance, Chinese State Council, 2009
  • Distinguished Young Scientist Award, National Natural Science Foundation of China, 2008-2012
  • ChangJiang Scholar, ChangJiang Scholars Program, Ministry of Education, China, 2007
  • Significant Event Award for developing Alumina-forming, creep resistant austenitic stainless steels, Oak Ridge National Laboratory, 2006
  • Early Career Award for Scientific Achievement, Finalists, Oak Ridge National Laboratory, 2005

·         Fast Moving Fronts paper in Materials Science, Information Sciences Institute (ISI), 2004

·         Top Physics Stories over the world, American Physical Society, 2004

 

MEDIA COVERAGE

·         Work on “Bulk Metallic Glass Composites with Transformation-Mediated Work-Hardening and Ductility” (Adv. Mater. V22,2010, 2770) highlighted by Asia Materials-Nature  and Science magazine.

·         Study regarding “Role of yttrium in glass formation of Fe based bulk metallic glasses” (Appl. Phys. Lett, V83, 2003, 2581) highlighted by Materials Today and Science magazine.

  • Work about development of bulk amorphous steels (Phys. Rev. Lett., V92, 2004, 245503) has been highlighted and reported by various media, including, Science, Nature, Physcial News Update, French Science&Vie, Science News, MRS Bulletin, NyTeknik, etc.
  • Work about development of high-temperature austenitic stainless steels featured by Science Daily, Materials World and Materials Today. 

 

RECENTS PUBLICATIONS

·         Y. Wu, H. Wang, H. H. Wu, Z.Y. Zhang, X. D. Hui, G.L. Chen, D. Ma, X. L. Wang, and Z. P. Lu*, “Formation of Cu–Zr–Al bulk metallic glass composites with improved tensile properties”, Acta Mater. 59, 2011, 2928–2936.

·         L. Wang, H. Bei, Y. F. Gao, Z. P. Lu, and T. G. Nieh, “Effect of residual stresses on the hardness of bulk metallic glasses”, Acta Mater. 59, 2011, 2858–2864.

·         X. J. Liu, G. L. Chen, F. Li, X. D. Hui, Z. P. Lu, F. Ye, and C. T. Liu, “Evolution of atomic ordering in metallic glasses”, Intermetallics 18, 2010, 2333-2337.

·         X. J. Liu, Y. Xu, X. Hui, Z. P. Lu*, F. Li, G. L. Chen, J. Lu, and C. T. Liu, “Metallic Liquids and Glasses: Atomic Order and Global Packing”, Phys. Rev. Lett. 105, 2010,155501.

·         Y. Wu ,Y. H. Xiao , G. L. Chen , C. T. Liu, Z. P. Lu*, “Bulk Metallic Glass Composites with Transformation-Mediated Work-Hardening and Ductility”, Adv. Mater. 22, 2010, 2770-2773.

·         H. Bei, Z. P. Lu, S. Shim, G. Chen, E. P.George, “Specimen size effects on Zr-based bulk metallic glasses investigated by uniaxial compression and spherical nanoindentation”, Met. Met. Trans. A80, 2010, 1735-1742.

  • Oxygen effects on plastic deformation of a Zr-based bulk metallic glass, Z. P. Lu, H. Bei, Y. Wu, G. L. Chen, E. P. George, C. T. Liu, Appl. Phys. Letts 92, 011915(2008).
  • Creep-Resistant, Al2O3-Forming Austenitic Stainless Steels, Y. Yamamoto, M. P. Brady, Z. P. Lu, P. J. Maziasz, C.T. Liu, B.A. Pint, K.L. More, H.M. Meyer, E.A. Payzant, Science 316, 433-436(2007).
  • A new glass forming ability criterion for bulk metallic glasses, Z. P. Lu and C. T. Liu, Acta Mater. 50, 3501(2002) (450 citations).
  • Structural amorphous steels, Z. P. Lu, C. T. Liu, J. R. Thompson and W. D. Porter, Phys. Rev. Lett. 92, 245503(2004) (270 citations).
  • Glass formation criterion for various glass-forming systems, Z. P. Lu and C. T. Liu, Phys. Rev. Lett. 91, 115505(2003) (200 citations).
  • Role of yttrium in glass formation of Fe based bulk metallic glasses, Z. P. Lu and C. T. Liu, Appl. Phys. Lett 83, 2581(2003) (110 citations).
  • Direct observation of a concealed glass transition in a Mg-Ni-Nd metallic glass, Z. P. Lu, C. T. Liu, C. H. Kam and Y. Li, Appl. Phys. Lett. 82, 862(2003).
  • Theoretical strength and the onset of plasticity in bulk metallic glasses investigated by nanoindentation with a spherical indenter, H. Bei, Z. P. Lu and E. P. George, Phys. Rev. Lett. 93, 125504(2004).
  • The correlation between reduced glass transition temperature and glass forming ability of bulk metallic glasses, Z. P. Lu, H. Tan, Y. Li, and S. C. Ng, Scripta Mater. 42, 667(2000) (150 citations).
  • Glass formation and Glass forming ability of La based alloys, Z. P. Lu, H. Tan and Y. Li, Mater. Trans. JIM 41, 1397(2000) (invited).
  • Role of minor alloying additions in formation of bulk metallic glasses: a review, Z. P. Lu, and C. T. Liu, J. Mater. Sci. (Cahn Special Issue) 39, 3965(2004) (invited).

 

POSTDOCS AND GRADUATE STDUENTS

Post-doc: Hongxiang Li, Kyungpook National University, Korea; Xuming Chu,

Graduate:

Master: Xiaoyang Sun, Yifang Ye, Rui Li, Hongxing Li, XiaoFeng Zhang, Weihong Liu, Wenli Song,

Ph. D.: Qing Du, Zipan Chen, Jingen Gao, Xiangqi Xu, Zhongyan Zhang, Deiqiang Zhou

Graduated:

Master: Zhiyuan Liu (Ph. D student at Hong Kong Poly U), Yuehua Xiao, Zengbao Jiao(Ph. D student at Hong Kong City U), Honghui Wu

Ph. D.: Yuan Wu

 

RESEARCH GRANTS

  • Principal Investigator, Atomistic deformation mechanism and dynamic nanocrystallization of bulk metallic glasses, The Critical International Joint Project, National Natural Science Foundation of China, 2011-2013
  • Principal Investigator, Distinguished Young Scientist Award, National Natural Science Foundation of China, 2008-2011
  • Principal Investigator, Alloy design of high-performance light-weight bulk amorphous alloys, the 973 program, the Ministry of Science and Technology of China, 2007-2012
  • Principal Investigator, High-temperature austenitic steels, State Key Lab seed money, 2008-2009
  • Co-Principal Investigator, High Temperature Alloy Design, U. S. DOE/Office of Basic Energy Sciences, 2004-2007
  • Co-Principal Investigator, Multi-phase high-temperature metallic alloys, U. S. DOE/Fossil Energy Program, 2004-2007

 

 

INVITED TALKS

1.        Atomic ordering and global packing  features of metallic glasses”, The 8th International Conference on Bulk Metallic Glasses (BMGVIII), Plenary talk, Hong Kong, May 15-19, 2011.

2.        Development of low-cost, high-saturation magnetization Fe-based bulk metallic glasses”, symposium of The 8th International Workshop on Intermetallics and Advanced Materials, ChangSha, China, May 10-13, 2011

3.        Transformation-mediated Work-hardening and Tensile Ductility in Bulk Metallic Glass Composites”, symposium U of Bulk Metallic Glasses and Their Applications, MRS annual fall meeting, Boston, Nov. 29-Dec. 3, 2010.

4.        “Transformation-mediated work-hardening and ductility in bulk metallic glass composites”, Hong Kong Polytechnic University, Hong Kong, Dec. 12, 2010.

5.        “Work hardenable and ductile Zr-based bulk metallic glasses”, symposium on bulk metallic glasses and high entropy alloys, CMRS annual meeting, Changsha, June 18-21, 2010.

6.        “Transformation-induced plasticity and working hardening in ZrCu-based BMG composites”, workshop on Glass formation and mechanical properties of bulk metallic glasses, Xiamen, March 11-14, 2010.

7.         “Glass formation and excellent soft magnetic properties of new Fe-based bulk metallic glasses containing no rare-earth elements”, the 7th International Conference on Bulk Metallic Glasses, Busan, Korea, November 1-5, 2009.

8.        “Development of low-cost, high-strength Fe-based bulk metallic glasses”, International Conference on Advanced High-Temperature and High-Strength Structural Materials, Hong Kong, Oct. 4-8, 2009.

9.        “Effect of testing sample sizes on the deformation behaviour of metallic glasses”, 2009 Cross-Strait Conference on Metallic Glasses, Taipei, May 1-9, 2009.

10.    “Effects of sample sizes on deformation behaviour of metallic glasses”, 16th International Symposium on Metastable, Amorphous and Nanostructured Materials (ISMANAM 2009) July 5-9, Beijing, China, 2009.

11.    “Size effects and multiple length-scale relation of mechanical deformation in bulk metallic glasses’, XianShang Conference, April 1-4, Beijing, China, 2009.

12.    “Effects of Oxygen Impurities and Sample Sizes on Plastic Deformation of Bulk Metallic Glasses”, BMG VI, May 11-15, Xi’an, China, 2008.

13.    “Glass formation of cost-effective Fe-based bulk metallic glasses”, The 7th International Workshop on Advanced Intermetallics and Metallic Materials, May 18-22, Harbin, China, 2008.

14.    “Effects of processing conditions on plastic deformation of bulk metallic glasses”, TMS annual meeting, New Orleans, Louisiana, March 9-13, 2008 (declined).

15.    “Formability and alloy design of bulk metallic glasses”, C-BMG IV, Wuhan, China, Nov. 20-22, 2007.

16.    “Fundamental processing variables for controlling deformation behavior of bulk metallic glasses”, International workshop on fundamental issues in metallic glasses, Kunming and Guilin, China, Oct. 20-27, 2007.

17.    “Alloy design of Zr-based bulk metallic glasses with binary eutectic approach”, BMG IV, Awaji Island, Japan, 2006.

18.    “Glass formation in eutectic systems: where are the best glass formers?”, MRS Fall Meeting, Boston, 2005.

19.    “A new scheme to design multi-component bulk metallic glasses”, BMG IV, Gatlinburg, TN, May 1-5, 2005.

20.    “Role of Yttrium in Formation of Fe-based Bulk Metallic Glasses (BMGs)”, APS March meeting, Los Angels, CA, March 19-25, 2005.

21.     “Development of Fe-based Bulk Amorphous Alloys”, TMS Annual meeting, San Francisco, CA, Feb. 14-17, 2005.

22.    “A guide to optimum compositions for bulk metallic glass formation”, TMS annual meeting 2004, Charlotte, NC, 2004.

 

PUBLICATIONS

 

BOOK CHAPTER

1.) Z. P. Lu, Y. Liu and C. T. Liu, Evaluation of Glass-Forming Ability in book Bulk Metallic Glasses edited by Peter K. Liaw and M. K. Miller., Springer, ISBN-10: 0387489207, pp 87-115, 2007

 

JOURNAL PUBLICATIONS

1)   Y. Wu, H. Wang, H. H. Wu, Z.Y. Zhang, X. D. Hui, G.L. Chen, D. Ma, X. L. Wang, and Z. P. Lu*, “Formation of Cu–Zr–Al bulk metallic glass composites with improved tensile properties”, Acta Mater. 59, 2011, 2928–2936.

2)   L. Wang, H. Bei, Y. F. Gao, Z. P. Lu, and T. G. Nieh, “Effect of residual stresses on the hardness of bulk metallic glasses”, Acta Mater. 59, 2011, 2858–2864.

3)   X. J. Liu, G. L. Chen, F. Li, X. D. Hui, Z. P. Lu, F. Ye, and C. T. Liu, “Evolution of atomic ordering in metallic glasses”, Intermetallics 18, 2010, 2333-2337.

4)   X. D. Hui, Z. Y. Xu, E. R. Wang, G. L. Chen, and Z. P. Lu, “Excellent Magnetocaloric Effect in Er60Al18Co22 Bulk Metallic Glass”, Chinese Physics Lett. 27, 2010, 117502.

5)   X. H. Chen, B. Y. Zhang, G. L. Chen, Y. Zhang, X. D. Hui, Z. P. Lu, X. J. Liu, Y. Xu, and X. R. Xing, “Continuously manufacturing of bulk metallic glass-coated wire composite”, Intermetallics 18, 2010, 2034.

6)   X. J. Liu, Y. Xu, X. Hui, Z. P. Lu*, F. Li, G. L. Chen, J. Lu, and C. T. Liu, “Metallic Liquids and Glasses: Atomic Order and Global Packing”, Phys. Rev. Lett. 105, 2010,155501.

7)   H. X. Li, Z. B. Jiao, J. E. Gao and Z. P. Lu*, “Synthesis of bulk glassy Fe–C–Si–B–P–Ga alloys with high glass-forming ability and good soft-magnetic properties”, Intermetallics 18, 1821-1825, 2010.

8)   G. J. Hao, J. P. Lin, Y. Zhang, G. L. Chen, Z. P. Lu*, “Ti–Zr–Be ternary bulk metallic glasses correlated with binary eutectic clusters”, Mater. Sci. Eng. A 527, 2010, 6248-6250.

9)   Y. Wu ,Y. H. Xiao , G. L. Chen , C. T. Liu, Z. P. Lu*, “Bulk Metallic Glass Composites with Transformation-Mediated Work-Hardening and Ductility”, Adv. Mater. 22, 2010, 2770-2773.

10)  H. Bei, Z. P. Lu, S. Shim, G. Chen, E. P.George, “Specimen size effects on Zr-based bulk metallic glasses investigated by uniaxial compression and spherical nanoindentation”, Met. Met. Trans. A80, 2010, 1735-1742.

11)  Y. Wu, H. X. Li, Z. B. Jiao, J. E. Gao, Z. P. Lu*, “Size effects on the compressive deformation behaviour of a brittle Fe-based bulk metallic glass”, Phil. Mag. Lett. 90, 2010, 403-412.

12)  D. Ma, A. D. Stoica, X.-L. Wang, Z. P. Lu and T. Proffen, “In-situ neutron scattering study of crystallization in a Zr-based bulk metallic glass”’ Appl. Phys. A: Mater. Sci. & Processing 99, 2010, 537-542.

13)  J. Chang, X. Hui, Z. Y. Xu, Z. P. Lu and G. L. Chen, “Ni–Gd–Al metallic glasses with large magnetocaloric effect”, Intermetallics 18, 2010, 1132-1136.

14)  Y. H. Xiao, Y. Wu, Z. Y. Liu, H. H. Wu, Z. P. Lu*, “Effects of cooling rates on the mechanical properties of a Ti-based bulk metallic glass”, Sci. China: Phys., Mecha. & Astro. 53, 2010, 394-398.

15)  Z B. Jiao, H. X. Li, Y. Wu, J. E. Gao, S. L. Wang, S. Yi, Z. P. Lu*, Effects of Mo additions on the glass-forming ability and magnetic properties of bulk amorphous Fe-C-Si-B-P-Mo alloys”, Sci. China: Phys., Mecha. & Astro. 53, 2010, 430-434.

16)  S. Guo, Z. P. Lu, C. T. Liu, “Identify the best glass forming ability criterion”, Intermetallics 18, 2010, 883-888.

17)  Y. Wu, H. X. Li, Z. Y. Liu, G. L. Chen, Z. P. Lu*, “Interpreting size effects of bulk metallic glasses based on a size-independent critical energy density”, Intermetallics 18, 2010, 157.

18)  Y. Wu, H. H. Wu, X. D. Hui, G. L. Chen and Z.P. Lu*, “Effects of drawing on the tensile fracture strength and its reliability of metallic glasses”, Acta Mater. 58, 2010, 2564-2576.

19)  Y. Wu, G. L. Chen, X. D. Hui, C. T. Liu, Y. Lin, X. C. Shang, Z. P. Lu*, “A quantitative link between micro plastic instability and macroscopic deformation behaviors in metallic glasses”, J. Appl. Phys. 106, 083512, 2009.

20)  H. X. Li, J. E. Gao, Z. B. Jiao, Y. Wu, Z. P. Lu*, “Glass-forming ability enhanced by proper additions of oxygen in a Fe-based metallic glass”, Appl. Phys. Letter. 95, 191605, 2009.

21)  D. Ma, A. D. Stoica, X. L. Wang, Z. P. Lu, M. Xu, M. Kramer, “Efficient local atomic packing in metallic glasses and its correlation with glass-forming ability”, Phy. Rev. B 80, 2009, 014202.

22)  Y. Wu, H. X. Li, G. L. Chen, X. D. Hui, B. Y. Wang, Z. P. Lu*, “Nonlinear tensile deformation behavior of small sized metallic glasses”, Scripta Mater. 61, 2009, 564.

23)  H. X. Li, S. L. Wang, S. Yi, Z. B. Jiao, Y. Wu, Z. P. Lu*,“ Glass formation and magnetic properties of Fe-C-Si-B-P-(Cr-Al-Co) bulk metallic glasses fabricated using industrial raw materials”, J. Magnet. Magnet. Mat. 321, 2009, 2833-37.

24)  Z. Y. Liu, Y. Wu, H. X. Li, H. Bei, Z. P. Lu*, “Alloying effects of iridium on glass formation and glass-forming ability of the Zr–Cu–Al system”, J. Mater. Res. 24, 2009, 1619.

25)  H. X. Li, Z. P. Lu, S. Yi, “Estimation of the glass formation ability of the Fe-based bulk metallic glass Fe68.8C7.0Si3.5B5.0P9.6Cr2.1Mo2.0Al2.0 that contains non-metallic inclusions”, Met. Mater. Int., 15, 2009, 7-14.

26)  Y. Wu, X. D. Hui, Z. P. Lu*, Z. Y. Liu, L. Liang, G. L. Chen, “Effects of metalloid elements on the glass-forming ability of Fe-based alloys”, J. Alloy Comp., 4672009 187-190.

27)  M. P. Brady, Y. Yamamoto, Z. P. Lu, P. J. Maziasz, C. T. Liu, “Alumina-forming austenitic: a new class of heat-resistant stainless steels”, Chinese J. Nature, 30,2008,189.

28)  L. Yang, X. L. Wang, W. D. Porter, Z. P. Lu, A. D. Stoica, E. A. Payzant, J. Almer, D. L. Shi, “Consecutive nucleation events during divetrification of Zr52.5Cu17.9Ni14.6Al10Ti5 Bulk Metallic Glass”, Adv. Eng. Mater., 10, 2008, 1.

29)  M. P. Brady, Y. Yamamoto; M. L. Santella; P. J. Maziasz, B. A. Pint, C. T. Liu, Z. P. Lu, H. Bei, “The development of alumina-forming austenitic stainless steels for high-temperature structural use”,  JOM 60 (7), 2008, 12-18.

30)  X. J. Liu, G. L. Chen, X. Hui, T. Liu, and Z. P. Lu, “Ordered clusters and free volume in a Zr–Ni metallic glass”, Appl. Phys. Letts. 93, 2008, 011911.

31)  X. J. Liu, G. L. Chen, H. Y. Hou, X. Hui, K. F. Yao, Z. P. Lu, C. T. Liu, “Atomistic mechanism for nanocrystallization of metallic glasses”, Acta Mater. 56, 2008, 2760-9.

32)  L. Liang, X. Hui, C. M. Zhang, Z. P. Lu, G. L. Chen, “A novel Ho36Dy20Al24Co20 bulk metallic glass with large magnetocaloric effect”, Solid State Communications 146, 2008, 49-52.

33)  Z. P. Lu*, C.T. Liu, Y. Wu, H. Tan, Y. Li, G.L. Chen, “Composition effects on glass-forming ability and its indicator g”, Intermetallics 16, 2008, 410-417.

34)  Y. Yamamoto, M. Takeyama, Z. P. Lu, C.T. Liu, N.D. Evans, P.J. Maziasz, M.P. Brady, “Alloying effects on creep and oxidation resistance of austenitic stainless steel alloys employing intermetallic precipitates”, Intermetallics 16, 2008, 453-462.

35)  Z. P. Lu*, H. Bei, Y. Wu, G. L. Chen, E. P. George, C. T. Liu, “ Oxygen effects on plastic deformation of a Zr-based bulk metallic glass”, Appl. Phys. Letts  92, 2008, 011915.

36)  Y. Yamamoto, M. P. BradyZ. P. Lu, C. T. Liu, M. Takeyama, P. J. Maziasz, B. A. Pint, “Alumina-forming austenitic stainless steels strengthened by laves phase and MC carbide precipitates”, Metal. Mater. Trans. A: Physical Metallurgy and Materials Science, 38 A, 2007, 2737-2746.

37)  Z. P. Lu* and C. T. Liu, “A Scheme to Design Multi-component Bulk Metallic Glasses in Ideal Glass-Forming Liquids”, Mater. Trans. 48, 2007, 2476-2482.

38)  D. Ma, A. D. Stoica, L. Yang, X. L. Wang, Z. P. Lu, J. Neuefeind, M. T. Kramer, J. W. Richardson, T. Proffen, “Nearest-neighbor coordination and chemical ordering in multicomponent bulk metallic glasses”, Appl. Phys. Letts. 90, 2007, 211908.

39)  X. H. Du, J. C. Huang, C. T. Liu, and Z. P. Lu, “New criterion of glass forming ability for bulk metallic glasses”, J. Appl. Phys. 101, 2007, 086108.

40)  Y. Yamamoto, M. P. Brady, Z. P. Lu, P. J. Maziasz, C.T. Liu, B.A. Pint, K.L. More, H.M. Meyer, E.A. Payzant, “Creep-Resistant, Al2O3-Forming Austenitic Stainless Steels”, Science, 316, 2007, 433-436.

41)  Z. P. Lu*, H. Bei, and C. T. Liu, “Recent progress in quantifying glass-forming ability of bulk metallic glasses”, Intermetallics 15, 2007, 618-624.

42)  Z. P. Lu*, D. Ma, C. T. Liu, and Y.A. Chang, “Competitive formation of glasses and glass–matrix composites”, Intermetallics 15, 2007, 253-259.

43)  Z. P. Lu*, C. T. Liu, X. Z. Wang, “Minor additions of Sn in a bulk glass-forming Fe-based system”, J. Mat. Res. 21, 2006, 3180-6.

44)  Z. P. Lu*, J. Shen, D. W. Xing, and J. F. Sun and C. T. Liu, “Binary eutectic clusters and glass formation in ideal glass-forming liquids”, Appl. Phys. Lett. 89, 2006, 071910.

45)  Q. J. Chen, H. B. Fan, J. Shen, J. F. Sun and Z. P. Lu, “Critical cooling rate and thermal stability of a Fe-Co-Zr-Y-Cr-Mo-B amorphous alloy”, J. Alloy Comp., 407, 2006, 125.

46)  J. Shen, J. Zou, L. Ye, Z. P. Lu, D. W. Xing, M. Yan and J. F. Sun, “Glass forming ability and thermal stability of a new bulk metallic glass in the quaternary Zr-Cu-Ni-Al system”, J. Non-cryst. Solids, V351, 2005, 2519-2523.

47)  G. Wang, J. Shen, J. F. Sun, Z. P. Lu*, Z. H. Stachurski and B. D. Zhou, “Compressive fracture characteristics of a Zr-based bulk metallic glass at high test temperatures”, Mat. Sci. & Engi. A, V398, 2005, 82-87.

48)  C. T. Liu and Z. P. Lu, “Effect of minor alloying additions on glass formation in bulk metallic glasses”, Intermetallics, V13, 2005, 415-418.

49)  G. Wang, J. Shen, J. F. Sun, Z. P. Lu*, Z. H. Stachurski and B. D. Zhou, “Tensile fracture characteristics and deformation behavior of a Zr-based bulk metallic glass at high temperatures”, Intermetallics, V13, 2005, 642-648.

50)  G. Wang, J. Shen, J. F. Sun, Y. J. Huang, J. Zhou, Z. P. Lu, Z. H. Stachurski and B. D. Zhou, “Superplasticity and superplastic forming ability of a Zr-Ti-Ni-Cu-Be bulk metallic glass in the supercooled liquid region”, J. Non-Cryst. Solids, V351, 2005, 209-217.

51)  H. Bei, Z. P. Lu and E. P. George, “Theoretical strength and the onset of plasticity in bulk metallic glasses investigated by nanoindentation with a spherical indenter”, Phys. Rev. Lett., V93, 2004, 125504.

52)  Z. P. Lu*, C. T. Liu, J. R. Thompson and W. D. Porter, “Structural amorphous steels”, Phys. Rev. Lett., V92, 2004, 245503.

53)  Z. P. Lu*, C. T. Liu and Y. D. Dong, “Effects of atomic bonding nature and size mismatch on thermal stability and glass-forming ability of bulk metallic glasses”, J. Non-cryst. Solids, V341, 2004, 93-100.

54)  Z. P. Lu* and C. T. Liu, “A new approach to understanding and measuring glass formation in bulk amorphous materials”, Intermetallics, V12, 2004, 1035-1043.

55)  Z. P. Lu*, C. T. Liu and Y. Li, “Glass transition and crystallization of Mg-Ni-Nd metallic glasses studied by a temperature modulated DSC”, Intermetallics, V 12, 2004, 869-874.

56)  Z. P. Lu* and C. T. Liu, “Comments on “Fabrication of ternary Mg-Cu-Gd bulk metallic glass with high glass-forming ability under air atmosphere” [J. Mater. Res. 18, 1502(2003)]”, J. Mater. Research, V19, 2004, 427.

57)  Z. P. Lu* and C. T. Liu, “Bulk glass formation in an Fe-based Fe-Y-Zr-M(M= Cr, Co, Al)-Mo-B system, J. Mater. Research, V19, 2004, 921-929.

58)  Z. P. Lu* and C. T. Liu, “Role of minor alloying additions in formation of bulk metallic glasses: a review”, J. Mater. Sci. (Cahn Special Issue), V39, 2004, 3965-3974.

59)  Z. P. Lu* and C. T. Liu, “Glass formation criterion for various glass-forming systems”, Phys. Rev. Lett., V91, 2003, 115505.

60)  Z. P. Lu*, C. T. Liu et al., “Role of yttrium in glass formation of Fe based bulk metallic glasses”, Appl. Phys. Lett, V83, 2003, 2581.

61)  Z. P. Lu*, C. T. Liu, C. H. Kam and Y. Li, “Direct observation of a concealed glass transition in a Mg-Ni-Nd metallic glass”, Appl. Phys. Lett., V82, 2003, 862.

62)  Z. P. Lu*, Y. Li and C. T. Liu, “Glass forming tendency of bulk La-Al-Ni-Cu-(Co) metallic glass forming liquids”, J. Appl. Phys., V93, 2003, 286-290.

63)  Z. P. Lu and C. T. Liu, “On glass forming ability criteria of bulk metallic glasses”, Mater. Res. Soc. Symp. Proc., V754, 2003, 53-58.

64)  Z. P. Lu and C. T. Liu, “A new glass forming ability criterion for bulk metallic glasses”, Acta Mater., V50, 2002, 3501-3512.

65)  H. Tan, Z. P. Lu, Y. P. Feng and Y. Li, “Glass forming ability of La rich La-Al-Cu ternary alloys”, Mater. Trans., JIM, V42, 2001, 551.

66)  Z. P. Lu, X. Hu, Y. Li, and S. C. Ng, “Liquidus temperature effect on glass forming ability of bulk La and Pd based metallic glasses”, Mater. Sci. and Engi. A, V304-306, 2001, 679-682.

67)  H. Tan, Z. P. Lu, Y. P. Feng and Y. Li, “Glass formation and glass forming ability of La86-xCuxAl14 (x=10~30) alloys”, Mater. Sci. Forum, V360-362, 2001, 7-12.

68)  Z. P. Lu, H. Tan and Y. Li, “Glass formation and Glass forming ability of La based alloys”, Mater. Trans., JIM, V41, 1397-1405, 2000 (invited).

69)  Z. P. Lu, X. Hu and Y. Li, “Thermodynamics of La based La-Al-Cu-Ni-Co alloys studied by temperature modulated DSC”, Intermetallics, V8, 2000, 477-480.

70)  Z. P. Lu, Y. Li, S. C. Ng, and Y. P. Feng, “Study of glass transition of metallic glasses by temperature-modulated differential scanning calorimeter (MDSC)”, Thermochi. Acta, V357, 2000, 65.

71)  Z. P. Lu, H. Tan, Y. Li, and S. C. Ng, “The correlation between reduced glass transition temperature and glass forming ability of bulk metallic glasses”, Scripta Mater., V42, 2000, 667-673.

72)  Z. P. Lu, Y. Li, and S. C. Ng, “Reduced glass transition temperature and glass forming ability of bulk glass forming alloys”, J. Non-Cryst. Solids, V270, 2000, 103-114.

73)  Z. P. Lu, T. T. Goh, Y. Li, and S. C. Ng, “Glass formation in La based La-Al-Ni-Cu-Co alloys by Bridgman solidification and their glass forming ability”, Acta Mater., V47, 1999, 2215-2224.

74)  Z. P. Lu, Y. Li, S.C. Ng and Y. P. Feng, “Glass formation in La-based La55Al25(NiCu)20 alloys by Bridgman solidification”, J. Non-crystal. Solids, V250-252, 1999, 601.

75)  T. T. Goh, X. Hu, Z. P. Lu and Y. Li, “Easy glass formation in Pd- and La-based alloys by Bridgman solidification”, Mater. Sci. Forum, V312-314, 1999, 247-252.

76)  Z. P. Lu, Y. Li, S. C. Ng, Y. P. Feng and K. Lu, “Glass transition of rare-earth based metallic glasses: temperature modulated differential scanning calorimeter (MDSC)”, J. Non-crystal. Solids, V250-252, 1999, 689.

77)  Z. P. Lu, Y. Li, S. C. Ng and Y. P. Feng, “Significant undercooled liquid region of over 200K in rare earth based metallic glasses”, Mater. Res. Soc. Symp. Proc., V554, 1999, 205-210.

78)  Z. P. Lu, Y. Li, S. C. Ng, Y. P. Feng and K. Lu, “Glass transition and crystallization in four metallic glasses investigated by temperature modulated DSC”, Acta Metall. Sinica, V35, 1999, 73, in Chinese.

79)  Y. Li, S. C. Ng, Z. P. Lu, Y. P. Feng and K. Lu, “Separation of glass transition and crystallization in metallic glasses by modulated temperature differential scanning calorimetry”, Phil. Mag. Lett., V78, 1998, 213-220.

80)  Y. Li, S. C. Ng, Z. P. Lu, Y.P. Feng, and K. Lu, “Melting and solidification of Pb nanoparticles embedded in an Al matrix as studied by temperature-modulated differential scanning calorimetry”, Phil. Mag. Lett., V78, 1998, 37-44.

81)  Y. Li, S. C. Ng, Z. P. Lu, Y. P. Feng, “Easy glass formation in La55Ni20Al25 by Bridgman solidification”, Mater. Lett., V34, 1998, 318-321.

 

CONFERENCE PROCEEDINGS

82)  M. P. Brady, Z. P. Lu, Y. Yamamoto, C. T. Liu, P. F. Tortorelli, “Multi-phase high temperature alloys: exploration of alumina-forming, creep-resistant austenitic stainless steels”, 21st annual conference on fossil materials, Knoxville, April 30-May 2, 2007, TN, 2007.

83)  M. P. Brady, C. T. Liu, Y. Yamamoto, Z. P. Lu and H. Meyer, “Multi-phase high temperature alloys: exploration of Laves phase strengthening of steels”, 19th annual conference on fossil materials, Knoxville, TN, 2005.

84)  I. G. Wright, B.A. Pint, and Z.P. Lu, "Overview of ODS alloy development,” 19th Annual Conference on Fossil Energy Materials, May 9-11, Knoxville, TN, 2005.

85)  C. T. Liu and Z. P. Lu, “Minor Alloying Additions and Glass Formation in Bulk Metallic Glasses”, International BMG conference in Taiwan, June, 2004.

86)  H. Tan, Z. P. Lu and Y Li, “Bulk Metallic Glass Matrix Composite Processed by Bridgman Solidification”, Proceeding of ICCE/8, 2002, 913.

87)  J. Seuntjens, Z. P. Lu, R. Emily, C. W. Tok, F. Wulff, San Sanda Aung, and S. Kumar, “Development of New Ultra-high Stiffness Gold Bonding Wire”, Proceeding of SEMICON Singapore, May, 2001 (“the best paper award”).

88)  Z. P. Lu, Y. Li and S. C. Ng, “Bridgman solidification of La based amorphous alloys (Abstract)”, proceeding of 1st Singapore Chemical Conference (abstract), Singapore, Dec., 1999.

89)  Z. P. Lu and Z. Y. Li, “the critical cooling conditions and heat transfer for Laser glazing on the surface of a Zr-Al-Ni-Cu alloy”, proceeding of Annual Meeting of Welding Society, Hubei Engineering Association, P. R. China, 1996, in Chinese.

90)  Z. P. Lu and Z. Y. Li, “Glass glazing on the surface of a Zr-Al-Ni-Cu alloy”, proceeding of Annual Meeting of Welding Society, Hubei Engineering Association, P. R. China, 1996, in Chinese.

 

PATENTS

91)  Z. P. Lu and C. T. Liu, “Bulk amorphous steels based on Fe alloys”, issued, US 7052561.

92)  M. Brady, Y. Yamamoto, Z. P. Lu, C. T. Liu, P. J. Maziasz and B. A. Pint, “Al-Modification of Optimized Austenitic alloys”, 2006, US 7744813, licensed.

93)  “Fe-based soft magnetic bulk metallic glasses with high saturation and large glass-forming ability”, Z. P. Lu, H. X. Li, Z. B. Jiao, Y. Wu, 2009, Filing no: 200910083111.2.

94)  “A new method and setup for producing large sized bulk metallic glass composites”, X. H. Chen, G. L. Chen, B. Y. Zhang, Y. Zhang, Z. P. Lu, X. D. Hui, X. J. Liu, 2009, filing no: 200910236801.7.

95)  “Bulk metallic glass composites with work hardening capability and tensile ductility”, Y. Wu, Z. P. Lu, G. L. Chen, X. D. Hui, Y. Zhang, 2010, filing no: 201010106006.9.

96)  “A new alumina-forming austenitic steel”, Z. P. Lu, X. Q. Xu, G. L. Chen, Y. Wu, X. F. Zhang, 2010, filing no.: 201010232851.0.

 

友情链接
  北京科技大学新金属材料国家重点实验室