Substitution effects on the shape memory and hydrogenation properties of TiNi
Publish place: Third Hydrogen and Fuel Cell Conference
Publish Year: 1394
نوع سند: مقاله کنفرانسی
زبان: English
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شناسه ملی سند علمی:
H2FC03_110
تاریخ نمایه سازی: 19 خرداد 1396
Abstract:
This study aims to improve shape memory and hydrogen storage properties of TiNi by chemical substitutions in the Ni sub-lattice. The effect of Pd, Cu and Co substitutions on crystal structure, martensitic transformation andhydrogenation properties of TiNi has been studied by structural (X-ray and neutron powder diffraction),calorimetric, solid-gas and electrochemical means. Ab initio DFT calculations were done to highlight electroniceffects on hydrogenation properties. The three substitutions, TiNi1-zMz (M = Pd, Cu and Co; z ≤ 0.5), lead to the formation of pseudobinarycompounds. Substitutions by Pd and Cu increase the unit-cell volume of TiNi, whereas the reverse effect occurs for Co. Martensitic transformation temperatures correlate with volume variations. They increase strongly for M= Pd and slightly for M = Cu, whereas M = Co decreases it. Hydrogenation properties are very sensitive tochemical elements substitution. The capacity decreases strongly for M = Pd, moderately for M = Cu and remainsstable for M = Co. Contrary to expected effect by geometric model, both Pd and Cu substitutions decrease the stability of hydrides. DFT calculations show that electronic rather than geometric effects govern hydride stability for M = Pd. Co substitution induces step-wise formation of hydrides with a multi-plateau behaviour inpressure-composition isotherms. As concerns applications, low amount of Cu substitution (z = 0.2) increases the electrochemical dischargecapacity of TiNi from 150 to 300 mAh/g due to hydride destabilization. This opens new perspectives for using TiNi-based alloys in Ni-MH batteries. In contrast, Pd and high amount of Cu substitution (z = 0.5) are effective to decrease TiNi reactivity towards hydrogen, and therefore attractive for shape memory applications under reductive environment.
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Authors
Hoda Emami
I2CNER, International Institute for Carbon Neutral Energy Research, 744 Motooka, Nishi-ku Fukuoka 819-0395, JAPAN
Fermin Cuevas
CMTR/ICMPE/CNRS-UPEC, UMR 7182, 2-8 rue Henri Dunant, 94320, Thiais Cedex, FRANCE
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