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Enhancement of First Hydrogenation of Ti1V0.9Cr1.1 BCC Alloy by Cold Rolling and Ball Milling

机译：冷轧和球铣削Ti1V0.9CR1.1 BCC合金的首发氢化第一氢化的增强

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In this study, we evaluated the effects of a mechanical treatment by cold rolling (CR) and ball milling (BM) on the first hydrogenation of Ti V Cr alloy. The as-cast alloy has a body-centered cubic (BCC) crystal structure, and the first hydrogenation at room temperature under 20 bars of hydrogen is practically impossible. However, the samples mechanically activated by CR or BM readily absorbed hydrogen. The sample cold-rolled for one pass exhibited faster kinetics than the sample ball-milled for five minutes, but both samples reached the same storage capacity of 3.6 wt % hydrogen. Increasing the amount of rolling or the milling time decreased the hydrogen capacity. CR is considered the best and most efficient method for the activation of Ti V Cr alloy.

机译：在这项研究中，我们评估了通过冷轧（Cr）和球磨（Bm）对Ti V Cr合金的第一次氢化的机械处理的影响。作为铸造合金具有以体为中心的立方（BCC）晶体结构，并且在室温下在20巴的氢气下的第一氢化实际上是不可能的。然而，通过Cr或Bm机械地激活样品容易吸收氢气。冷轧的样品呈现出比样品球磨5分钟的动力学更快，但两个样品达到相同的储存能力为3.6wt％氢。增加轧制量或铣削时间降低了氢气能力。 CR被认为是用于激活Ti V Cr合金的最佳和最有效的方法。

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期刊名称 Materials
作者
Salma Sleiman; Anis Aliouat; Jacques Huot;
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作者单位

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年(卷),期 2020(13),14
年度 2020
页码 -1
总页数 13
原文格式 PDF
正文语种
中图分类外科学;
关键词
BCC alloys; kinetics; cold rolling; ball milling; hydrogen storage;

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1. Mechanical activation of air exposed TiFe + 4 wt% Zr alloy for hydrogenation by cold rolling and ball milling [J] . Manna Joydev, Tougas Bernard, Huot Jacques International journal of hydrogen energy . 2018,第45期

机译：空气暴露的TiFe + 4 wt％Zr合金的机械活化，通过冷轧和球磨进行氢化
2. Hydrogen sorption properties of Ti-Cr alloys synthesized by ball milling and cold rolling [J] . S. Amira, S.F. Santos, J. Huot Intermetallics . 2010,第1期

机译：球磨-冷轧合成Ti-Cr合金的氢吸附性能
3. Hydrogen sorption properties of Ti-Cr alloys synthesized by ball milling and cold rolling [J] . S. Amira, S.F. Santos, J. Huot Intermetallics . 2010,第1期

机译：球磨和冷轧合成的Ti-Cr合金的氢气吸附性能
4. Hydrogenation of nanocrystalline Mg2Ni alloy prepared by high energy ball-milling followed by equal-channel angular pressing or cold roiling [C] . Adam Revesz, Marcell Gajdics, Lajos K. Varga Forum on New Materials;International Ceramics Congress . 2014

机译：通过高能球磨制备的纳米晶Mg2NI合金的氢化，然后通过相等通道角压或冷凝
5. AN INTEGRATED NEAR-OPTIMUM DESIGN OF COLD ROLLING MILLS. [D] . JAMSHIDI, MOHAMMAD. 1971

机译：冷轧机的综合近最佳设计。
6. Structural and Kinetic Hydrogen Sorption Properties of Zr0.8Ti0.2Co Alloy Prepared by Ball Milling [O] . Hui He, Huaqin Kou, Wenhua Luo, 2018

机译：球磨制备Zr0.8Ti0.2Co合金的结构和动力学吸氢性能
7. Correction to: Influence of Ball Milling, Cold Rolling and Doping (Zr + 2Cr) on Microstructure, First Hydrogenation Properties and Anti-poisoning Ability of TiFe Alloy [O] . Peng Lv, Zhichen Liu, Abhishek Kumar Patel, 2020

机译：校正：球磨，冷轧和掺杂（Zr + 2cr）对微观结构，第一氢化性能和抗中毒能力的影响
8. Cold Compaction of Ball-Milled Nanograin Iron Alloys [R] . Munitz, A., Livne, Z., Rawers, J. C., 1997

机译：球磨纳米铁合金的冷压实

Enhancement of First Hydrogenation of Ti1V0.9Cr1.1 BCC Alloy by Cold Rolling and Ball Milling

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