Litcius/Paper detail

Design of V-Substituted TiFe-Based Alloy for Target Pressure Range and Easy Activation

Mohammad Faisal, June‐Hyung Kim, Young Whan Cho, Jae‐il Jang, Jin‐Yoo Suh, Jae‐Hyeok Shim, Young‐Su Lee

2021Materials19 citationsDOIOpen Access PDF

Abstract

Titanium iron (TiFe) alloy is a room-temperature hydrogen-storage material, and it absorbs hydrogen via a two-step process to form TiFeH and then TiFeH2. The effect of V addition in TiFe alloy was recently elucidated. The V substitution for Ti sublattice lowers P2/P1 ratio, where P1 and P2 are the equilibrium plateau pressure for TiFe/TiFeH and TiFeH/TiFeH2, respectively, and thus restricts the two-step hydrogenation within a narrow pressure range. The focus of the present investigation was to optimize the V content such that maximum usable storage capacity can be achieved for the target pressure range: 1 MPa for absorption and 0.1 MPa for desorption. The effect of V substitution at selective Ti or Fe sublattices was closely analyzed, and the alloy composition Ti46Fe47.5V6.5 displayed the best performance with ca. 1.5 wt.% of usable capacity within the target pressure range. At the same time, another issue in TiFe-based alloys, which is a difficulty in activation at room temperature, was solved by Ce addition. It was shown that 3 wt.% Ce dispersion in TiFe alloy imparted to it easy room-temperature (RT) activation properties.

Topics & Concepts

AlloyMaterials scienceHydrogen storageDesorptionUSableHydrogenIntermetallicTitanium alloyDispersion (optics)Range (aeronautics)Chemical engineeringMetallurgyPhysical chemistryComposite materialAdsorptionChemistryOrganic chemistryComputer scienceOpticsWorld Wide WebPhysicsEngineeringHydrogen Storage and MaterialsCatalysis and Hydrodesulfurization StudiesElectrocatalysts for Energy Conversion