Crystallitic structure and thermodynamics of magnesium-based hydrogen storage materials from reactive milling under hydrogen atmosphere

机译：氢气氛下反应铣削基于镁基储氢材料的微晶结构及热力学

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Magnesium-based hydrogen storage materials were prepared by reactive milling of magnesium under hydrogen atmosphere with crystallitic carbon, prepared from anthracite coal, as milling aid. The XRD analysis shows that in the presence of 30 wt.% of crystallitic carbon, the Mg easily hydrided into β-MgH_2 of crystal grain size 29.7 nm and a small amount of γ-MgH_2 after 3 h of milling under 1 MPa H_2. The enthalpy and entropy changes of the hydrogen desorption reaction are 42.7 kJ/mol and 80.7 J/mol K, respectively, calculated by the van't Hoff equation from the p-C-T data in 300-380°C.

机译：基于镁的储氢材料是通过在氢气氛下与结晶碳的反应碾磨，从无烟煤煤制成，作为铣削助剂。 XRD分析表明，在30重量％的结晶碳的存在下，Mg在晶粒尺寸29.7nm的晶粒尺寸29.7nm的β-mgH_2中容易地融入β-mgH_2和较小的磨削后的较少量的γ-MgH_2。氢解反应的焓和熵变化分别是42.7kJ / mol和80.7J / mol k，通过从300-380℃的P-C-T数据中的VAC'T Hoff等式计算。

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《International Conference on Energy and Environmental Protection》|2013年||共4页
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Shixue Zhou; Qianqian Zhang; Naifei Wang; Zongying Han; Weixian Ran; Changzhen Li; Chao Ding; Pengbo Li;
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中图分类 TB3-53;
关键词
Magnesium; Hydrogen storage material; Reactive milling; Crystallitic structure; Thermodynamics;

机译：镁;储氢材料;反应式铣削;结晶结构;热力学;

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1. Magnesium-based hydrogen storage nanomaterials prepared by high energy reactive ball milling in hydrogen at the presence of mixed titanium-iron oxide [J] . Lototskyy M., Davids M. W., Sibanyoni J. M., Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2015,第Suppla1期

机译：混合钛铁氧化物存在下氢中高能反应球磨制备的镁基储氢纳米材料
2. Evolution of magnesium during reactive milling under hydrogen atmosphere with crystallitic carbon as milling aid [J] . Shixue Zhou, Qianqian Zhang, Weixian Ran Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2013,第Null期

机译：以结晶碳为研磨助剂的氢气氛下反应研磨过程中镁的析出
3. Investigation of the microstructure and the thermodynamic and kinetic properties of ball-milled CeMg12-type composite materials as hydrogen storage materials [J] . Hu Feng, Luo Lirong, Zhao Xin, Materials Characterization . 2019,第期

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4. Crystallitic structure and thermodynamics of magnesium-based hydrogen storage materials from reactive milling under hydrogen atmosphere [C] . Shixue Zhou, Qianqian Zhang, Naifei Wang, International Conference on Energy and Environmental Protection . 2013

机译：氢气氛下反应铣削基于镁基储氢材料的微晶结构及热力学
5. Microstructure-Property Correlation in Magnesium-based Hydrogen Storage Systems: The Case for Ball-milled Magnesium Hydride Powder and Magnesium-based Multilayered Composites. [D] . Danaie, Mohsen. 2011

机译：镁基储氢系统中的微观结构-性能关联：球磨氢化镁粉和镁基多层复合材料的情况。
6. Magnesium-Based Materials for Hydrogen Storage—A Scope Review [O] . Agata Baran, Marek Polański 2020

机译：基于氧化镁材料的氢气储存 - 范围综述
7. Magnesium–carbon hydrogen storage hybrid materials produced by reactive ball milling in hydrogen [O] . Lototskyy M., Sibanyoni J.M., Denys R.V., 2013

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Crystallitic structure and thermodynamics of magnesium-based hydrogen storage materials from reactive milling under hydrogen atmosphere

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