Fabrication of ball-milled MgO-Mg(OH)_2-hydromagnesite composites and evaluation as an air-stable hydrogen storage material

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Fabrication of ball-milled MgO-Mg(OH)_2-hydromagnesite composites and evaluation as an air-stable hydrogen storage material

机译：球磨MgO-Mg（OH）_2-菱镁矿复合材料的制备及对空气稳定储氢材料的评价

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A phase stability map of metallic magnesium powder, exposed to environmental conditions for 12 months (Mg-12M) and subjected to different high-energy ball-milling speeds and milling times, was constructed. Mg-12M-160 [1/2MgO-1/3Mg(OH)(2)-1/6 hydromagnesite] and Mg-12M-640 [1/4MgO-5/8Mg(OH)(2)-1/8hydromagnesite] composites were obtained changing the milling conditions. The correlation among the accumulated energy (Delta E-accum), the impact energy (Delta E-hit), and the phase stability under different high-energy ball-milling conditions were generated. The Mg-12M-160 composite had a hydrogen storage capacity of 0.63 wt% at -196 degrees C and 8.3 bar, although further hydrogen adsorption at higher pressures is expected. Structural defects play a significant role in the adsorption capacity. A representation of the possible absorption mechanism is proposed. (C) 2020 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.

机译：制作了暴露于环境条件下12个月（Mg-12M）并经受不同高能球磨速度和研磨时间的金属镁粉的相稳定性图。 Mg-12M-160 [1 / 2MgO-1 / 3Mg（OH）（2）-1/6菱镁矿]和Mg-12M-640 [1 / 4MgO-5 / 8Mg（OH）（2）-1/8菱镁矿]通过改变研磨条件获得复合材料。在不同的高能球磨条件下，产生了累积能量（ΔE-累积），冲击能量（ΔE-命中）和相稳定性之间的相关性。 Mg-12M-160复合材料在-196℃和8.3 bar下的储氢容量为0.63 wt％，尽管可以预期在更高的压力下会进一步吸附氢。结构缺陷在吸附能力中起着重要作用。提出了可能的吸收机制的表示。（C）2020 Hydrogen Energy Publications LLC。由Elsevier Ltd.出版。保留所有权利。

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《International journal of hydrogen energy》 |2020年第23期|12949-12960|共12页
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Univ Papaloapan Div Estudios Posgrad Campus Tuxtepec Circuito Cent 200 Parque Ind Tuxtepec 68301 Oax Mexico|Inst Tecnol Oaxaca Tecnol Nacl Mexico Dept Posgrad & Invest Av Ing Victor Bravo Ahuja 125 Esq Clz Tecnol Oaxaca 68030 Oax Mexico;

Univ Papaloapan Inst Biotecnol Campus Tuxtepec Circuito Cent 200 Col Parque Ind Tuxtepec 68301 Oax Mexico;

Inst Politecn Nacl Ctr Invest Ciencia Aplicada & Tecnol Avanzada Unidad Legaria Mexico City 1150 DF Mexico;

Univ Papaloapan Inst Quim Aplicada Campus Tuxtepec Circuito Cent 200 Col Parque Ind Tuxtepec 68301 Oax Mexico;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
MgO; Mg(OH)(2); Composite; Hydrogen adsorption; Ball-milling; Structural defects;

机译：氧化镁;镁（OH）（2）;综合;氢吸附球磨;结构缺陷;
入库时间 2022-08-18 05:21:36

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Fabrication of ball-milled MgO-Mg(OH)_2-hydromagnesite composites and evaluation as an air-stable hydrogen storage material

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