1 |
Effect of phase formation on hydrogen storage properties in Ti-V-Mn alloys by zirconium substitution Chen XY, Chen RR, Ding X, Fang HZ, Li XZ, Ding HS, Su YQ, Guo JJ, Fu HZ Energy, 166, 587, 2019 |
2 |
Achieving the dehydriding reversibility and elevating the equilibrium pressure of YFe2 alloy by partial Y substitution with Zr Pang HL, Li ZM, Zhou C, Wang H, Ouyang LZ, Yuan SR, Zhao YJ, Zhu M International Journal of Hydrogen Energy, 43(31), 14541, 2018 |
3 |
Thermodynamics, kinetics and microstructural evolution of Ti0.43Zr0.07Cr0.25V0.25 alloy upon hydrogenation Ruz P, Banerjee S, Halder R, Kumar A, Sudarsan V International Journal of Hydrogen Energy, 42(16), 11482, 2017 |
4 |
The effect of Zr-substitution in La1-xSrxCo0.2M0.6Zr0.2O3-delta (M = Fe, Mn) on the crystal structure, thermal expansion and electronic transport properties Oygarden V, Grande T Solid State Ionics, 301, 53, 2017 |
5 |
Structural characterization and electrochemical hydrogen storage properties of Ti2-xZrxNi (x=0, 0.1, 0.2) alloys prepared by mechanical alloying Li XD, Elkedim O, Nowak M, Jurczyk M, Chassagnon R International Journal of Hydrogen Energy, 38(27), 12126, 2013 |
6 |
Hydrogen absorption characteristics of zr substituted Ti0.85VFe0.15 alloy Basak S, Shashikala K, Kulshreshtha SK International Journal of Hydrogen Energy, 33(1), 350, 2008 |
7 |
The effect of Zr substitution for Ti on the microstructures and electrochemical properties of electrode alloys Ti1-xZrxV1.6Mn0.32Cr0.48Ni0.6 Zhu YF, Pan HG, Gao MX, Ma JX, Li SQ, Wang QD International Journal of Hydrogen Energy, 27(3), 287, 2002 |