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)
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X.L. Meng, M. Sato, A. Ishida, (2011) Structure of martensite in deformed
Ti–Ni–Cu thin films, Acta Materialia, 59, 2535-2543.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.