Biography

Prof. Xianglong Meng

School of Materials Science and Engineering,Harbin Institute of Technology, China


Email: xlmeng@hit.edu.cn


Qualifications

1999-2004  Ph.D., Materials Physics and Chemistry, Harbin Institute of Technology, China

1997-1999  M.Sc., Materials Physics, Harbin Institute of Technology, China

1993-1997  B.Sc., Welding Technology and Devices, Harbin Institute of Technology, China


Publications(Selected)

  1. X.L. Meng, M. Sato, A. Ishida, (2011) Structure of martensite in deformed Ti–Ni–Cu thin films, Acta Materialia, 59, 2535-2543.
  2. X.L. Meng, M. Sato, A. Ishida, (2011) A Novel Lattice Correspondence of B19®B19¢ Transformation in Ti-Ni-Cu Shape Memory Alloy Thin Film, Philosophical Magazine Letters, 91, 344-353.
  3. X.L. Meng, W. Cai, Y.D. Fu, et al. (2010) Martensite structure in Ti-Ni-Hf-Cu quaternary alloy ribbons containing (Ti,Hf)2Ni precipitates, Acta Materialia, 58, 3751-3763.
  4. X.L. Meng, M. Sato, A. Ishida, (2009) Structure of Martensite in Sputter-deposited (Ni,Cu)-rich Ti-Ni-Cu Thin Films Containing Ti(Ni,Cu)2 Precipitates, Acta Materialia, 57, 1525-1535.
  5. X.L. Meng, Y.D. Fu, W. Cai, et al. (2009) Microstructure and martensitic transformation behaviors of a Ti-Ni-Hf-Cu high-temperature shape memory alloy ribbon”, Philosophical Magazine Letters, 89, 431-438.
  6. X.L. Meng, Y.D. Fu, W. Cai, et al. (2009) Cu-content and Annealing Temperature Dependence of Martensitic Transformation of Ti36Ni49-xHf15Cux Melt Spun Ribbons, Intermetallics, 17, 1078-1084.
  7. X. L. Meng, M. Sato, A. Ishida, (2008) Structure of Martensite in Ti-rich Ti-Ni-Cu Thin Films Annealed at Different Temperatures, Acta Materialia, 56, 3394-3402.
  8. X.L. Meng, M. Sato, A. Ishida, (2008) Influence of Ti2Cu Precipitates on B19 Martensite Structure in a Ti-rich Ti-Ni-Cu Thin Film, Philosophical Magazine Letters, 88, 575 - 582.
  9. X. L. Meng, M. Sato, A. Ishida, (2008) Transmission Electron Microscopy Study on Microstructure of B19 Martensite in Sputter-deposited Ti50.2Ni30Cu19.8 Thin Films , Scripta Materialia, 59, 451-454.
  10. X. L. Meng, W. Cai, Y.D. Fu, et al. (2008) Shape-Memory Behaviors in an aged Ni-rich TiNiHf High Temperature Shape-Memory Alloy, Intermetallics, 16, 698-705.
  11. X. L. Meng, W. Cai , L.C.Zhao, (2006) Phase Transformation and Precipitation in Aged TiNiHf High temperature Shape Memory Alloys, Materials Science and Engineering A, 438-440, 666-670.
  12. X.L. Meng, W. Cai, K. T. Lau, et al. (2006) Phase Transformation and Thermal Stability of Aged Ti-Ni-Hf High Temperature Shape Memory Alloys, Journal of Materials Science & Technology, 22, 691-695.
  13. X. L. Meng, F. Chen, W. Cai, et al. (2006) Two-way Shape Memory Effect and Its Stability in a Ti-Ni-Nb Wide Hysteresis Shape Memory Alloy, Materials Transaction, 47, 724-727.
  14. X. L. Meng, W. Cai, L. C. Zhao, (2006) Effect of Aging on Martensitic Transformation and Microstructure in Ni-riched TiNiHf Shape Memory Alloy”, Scripta Materialia, 54, 1599-1604.
  15. F. Chen, X.L. Meng, W. Cai, et al. (2006) Martensitic Transformation and Shape Memory Effect of a Ni-Fe-Ga Polycrystalline Alloy, Journal of magnetism and Magnetic Materials, 302, 459-462.
  16. X. L. Meng, W. Cai, K.T. Lau, et al. (2005) Phase Transformation and Microstructure of quaternary TiNiHfCu High Temperature Shape Memory alloy, Intermetallics, 13,197-201.
  17. Meng Xiang-long, Wu Ye, Cai Wei, et al. (2005) Two-way Shape Memory Effect and Its Stability in Ti-Ni-Hf High Temperature Shape Memory Alloy. Transaction of Nonferrous Metals Society of China, 15, 340-343.
  18. X. L. Meng, W. Cai, L.C. Zhao, (2005) Effect of Deformation on the Phase Transformation and Two-way Shape Memory Effect in a Ti-Ni-Hf High Temperature Shape Memory alloy, Rare Metal Materials and Engineering, 34, 355-358.
  19. W. Cai, X.L. Meng, L.C. Zhao, (2005) Recent development of TiNi-based shape memory alloys, Current Opinion in Solid State & Materials Science, 9, 296-302.
  20. X. L. Meng, W. Cai Y. F. Zheng, et al. (2004) Two-way Shape Memory Effect of a TiNiHf High Temperature Shape Memory Alloy, Journal of Alloy and Compounds, 372, 180-186.
  21. X. L. Meng, W. Cai, K. T. Lau, et al. (2003) Effect of Training on Two-way shape memory Effect and Its Stability in a Ti-Ni-Hf High Temperature Shape Memory Alloy”, Journal of Materials Science & Technology, 19, 590-592.
  22. X. L. Meng, W. Cai, Y. F. Zheng, et al. (2003) Two-way Shape Memory Effect Induced by Martensite Deformation and Stabilization of Martensite in Ti36Ni49Hf15 High Temperature Shape Memory Alloy, Materials Letters, 57, 4206-4211.
  23. X. L. Meng, K.T. Lau, W. Cai, et al. (2003) Design and Stability of Shape Memory Alloys Springs subjected to a Constant Axial Load, Journal of Materials Science & Technology, 11, 23-33.
  24. L. H. Liu, X.L. Meng, W. Cai, et al. (2003) Deformation behaviors at various temperatures and corresponding microstructures of Ti36Ni49Hf15 alloy, Journal De Physique IV, 112, 755-758.
  25. X. L. Meng, Y.X. Tong, K. T. Lau, et al. (2002) Effect of Cu addition on Phase transformation of TiNiHf High Temperature Shape Memory Alloys, Materials letters, 57, 452-456.
  26. X.L. Meng, W. Cai, Y. F. Zheng, et al. (2002) Stress-induced Martensitic Transformation Behavior of a Ti-Ni-Hf High Temperature Shape Memory Alloy”, Materials Letters. Vol. 55, 1-2, 111-115.
  27. X.L. Meng, W. Cai, L.M. Wang, et al. (2001) Microstructure of Stress-induced Martensite in a Ti-Ni-Hf High Temperature Shape Memory Alloy”, Scripta Materialia, 45, 1177-1182.
  28. X.L. Meng, Y. F. Zheng, Z. Wang, et al. (2000) Effect of Aging on the Phase Transformation and Mechanical Behavior of Ti36Ni49Hf15 High Temperature Shape Memory Alloy”, Scripta Materialia, 42, 335-340.
  29. X.L. Meng, Y.F. Zheng, Z. Wang, et al. (2000) Shape Memory Properties of the Ti36Ni49Hf15 High Temperature Shape Memory Alloy, Materials Letters, 45, 128-132.
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