The Effects of Hydrogen Distribution on the Elastic Properties and Hydrogen-Induced Hardening and Softening of α-Fe

Wang, Z.; Shi, Xiaoming; Yang, Xu Sheng; Liu, Zhuhong; Shi, San Qiang; Ma, Xingqiao

doi:10.3390/app10248958

Cited by 2 publications

(1 citation statement)

References 55 publications

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“…Moreover, the obtained results are in good agreement with the available literature results [38,39]. Furthermore, when the hydrogen binds to LaCrO 3 , the bulk modulus decreases, which means it is easier to compress the material [40].…”

Section: Mechanical Propertiessupporting

confidence: 89%

Morphological, Structural and Hydrogen Storage Properties of LaCrO3 Perovskite-Type Oxides

Nabil

Fenineche

Popa³

et al. 2022

Energies

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Recently, perovskite-type oxides have attracted researchers as new materials for solid hydrogen storage. This paper presents the performances of perovskite-type oxide LaCrO3 dedicated for hydrogen solid storage using both numerical and experimental methods. Ab initio calculations have been used here with the aim to investigate the electronic, mechanical and elastic properties of LaCrO3Hx (x = 0, 6) for hydrogen storage applications. Cell parameters, crystal structures and mechanical properties are determined. Additionally, the cohesive energy indicates the stability of the hydride. Furthermore, the mechanical properties showed that both compounds (before and after hydrogenation) are stable. The microstructure and storage capacity at different temperatures of these compounds have been studied. We have shown that storage capacities are around 4 wt%. The properties obtained from this type of hydride showed that it can be used for future applications. XRD analysis was conducted in order to study the structural properties of the compound. Besides morphological, thermogravimetric analysis was also conducted on the perovskite-type oxide. Finally, a comparison of these materials with other hydrides used for hydrogen storage was carried out.

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Section: Mechanical Propertiessupporting

confidence: 89%

Morphological, Structural and Hydrogen Storage Properties of LaCrO3 Perovskite-Type Oxides

Nabil

Fenineche

Popa³

et al. 2022

Energies

View full text Add to dashboard Cite

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Effect of Interstitial Hydrogen on Elastic Behavior of Metals: An Ab-Initio Study

Kumar

Adlakha

2022

Journal of Engineering Materials and Technology

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A comprehensive assessment of interstitial hydrogen on the elastic behavior across different metals (Al, Ni, Fe, Nb, Ti, and Zr) was carried out using first-principles calculations. The volumetric strain introduced by interstitial hydrogen had a key role in the observed variation in elastic constants. However, in Nb, Ti and Zr, the host and hydrogen atoms interact strongly that had a significant contribution towards the variation in elastic response due to the presence of hydrogen. The addition of hydrogen reduced the resistance to shear deformation along respective active slip systems for all the metals, except Nb. Similarly, the homogenized macroscopic approximation of Young's and shear moduli also demonstrated a drop with increasing hydrogen concentration across all the metals, apart from Nb. Finally, these findings accurately quantify the variation in elastic behavior of various metals when exposed to a hydrogen rich environment.

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The Effects of Hydrogen Distribution on the Elastic Properties and Hydrogen-Induced Hardening and Softening of α-Fe

Cited by 2 publications

References 55 publications

Morphological, Structural and Hydrogen Storage Properties of LaCrO3 Perovskite-Type Oxides

Morphological, Structural and Hydrogen Storage Properties of LaCrO3 Perovskite-Type Oxides

Effect of Interstitial Hydrogen on Elastic Behavior of Metals: An Ab-Initio Study

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