| 1 |
Hydrogen-induced softening of Ti-44Al-6Nb-1Cr-2V alloy during hot deformation
Ma TF, Chen RR, Zheng DS, Guo JJ, Ding HS, Su YQ, Fu HZ
International Journal of Hydrogen Energy, 42(12), 8329, 2017 |
| 2 |
Surface modification by electrolytic plasma processing for high Nb-TiAl alloys
Gui WY, Hao GJ, Liang YF, Li F, Liu X, Lin JP
Applied Surface Science, 389, 1161, 2016 |
| 3 |
Influence of process parameters on the characteristics of TiAl alloyed powders by fluidized bed jet milling
Lu X, Liu CC, Zhu LP, Qu XH
Powder Technology, 254, 235, 2014 |
| 4 |
Diffusion bonding of TiAl using reactive Ni/Al nanolayers and Ti and Ni foils
Simoes S, Viana F, Kocak M, Ramos AS, Vieira MT, Vieira MF
Materials Chemistry and Physics, 128(1-2), 202, 2011 |
| 5 |
Characterization of sp(3) carbon produced by plasma deposition on gamma-TiAl alloys
Narksitipan S, Thongtem T, Thongtem S
Applied Surface Science, 254(23), 7759, 2008 |
| 6 |
Fourier transform infrared reflection absorption spectroscopy and microspectroscopy, a tool to investigate thermally grown oxide scales
Lefez B, Lopitaux J, Hannoyer B, Bacos MP, Beucher E
Thin Solid Films, 516(2-4), 349, 2007 |
| 7 |
Surface modification of gamma-TiAl alloys by acetylene plasma deposition
Narksitipan S, Thongtem T, McNallan M, Thongtem S
Applied Surface Science, 252(24), 8510, 2006 |
| 8 |
Effect of heat treatment on microstructure and mechanical property of 46XD and 47XD TiAl alloys
Zhu H, Seo DY, Maruyama K
Materials Science Forum, 475-479, 581, 2005 |
| 9 |
Processing and alloy development to optimise the properties and cost-effectiveness of components manufactured from TiAl-based alloys
Wu XH, Hu D, Loretto MH
Materials Science Forum, 449-4, 25, 2004 |
| 10 |
Work hardening and flow softening of gamma-TiAl containing Ni
Zhang J, Xia KN, Strom E, Zhong ZY, Li CH
Materials Science Forum, 449-4, 833, 2004 |
