Electrochemical Studies on the Ca-Based Hydrogen Storage Alloy for Different Milling Times

Y. Dabaki; C. Khaldi; N. Fenineche; O. ElKedim; M. Tliha; J. Lamloumi

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Electrochemical Studies on the Ca-Based Hydrogen Storage Alloy for Different Milling Times

机译：不同铣削时间的Ca基储氢合金的电化学研究

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The CaNi_(4.8)Mn_(0.2)powder was synthesized by mechanical alloying, under an atmosphere of argon at room temperature, at different milling times (2, 10, 20, 30, 40, 50 and 60?h) with ball to powder weight ratio of 8:1. The structural and morphological characterizations of the CaNi_(4.8)Mn_(0.2)powder were carried, respectively, by scanning electron microscopy and X-ray diffraction. After 2?h, all the alloys had a biphasic structure, two major phases, Ni and Ca_(2)Ni_(7), remained virtually unchanged when a small amount of Mn was added. After more than 40?h of milling, the same peaks of the Ni and Ca_(2)Ni_(7)phases appeared, while the intensity of the peaks decreased, indicating an additional amorphization process. After 50?h of milling, this damping was followed by the crystallization amorphization. The electrochemical properties of CaNi_(4.8)Mn_(0.2)electrodes were studied at different milling times (10, 20, 30, 40, 50 and 60?h) and in KOH electrolyte concentrations (1?M and 6?M) at ambient temperature, as anodes in the Ni–MH battery. Different techniques were used, such as galvanostatic polarization, potentiostatic polarization and potentiodynamic polarization. Graphic Abstract.

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来源
《Metals and Materials International》 |2021年第5期|共20页
作者
Y. Dabaki; C. Khaldi; N. Fenineche; O. ElKedim; M. Tliha; J. Lamloumi;
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作者单位

Université de Tunis ENSIT;

Université de Tunis ENSIT;

ICB-PMDM/FR FCLAB UTBM UBFC;

FEMTO-ST MN2S UTBM;

Université de Tunis ENSIT;

Université de Tunis ENSIT;

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原文格式 PDF
正文语种 eng
中图分类金属材料;
关键词
CaNi5based alloys; Mechanical alloying; Structural and morphological techniques; Ni–MH batteries; Electrochemical techniques;

机译：Cani5基于合金;机械合金化;结构和形态学技术;镍氢电池;电化学技术;
入库时间 2022-08-20 18:22:35

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Electrochemical Studies on the Ca-Based Hydrogen Storage Alloy for Different Milling Times

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