L. Moro scite author profile

The energetics of hydrogen atoms interacting with a cluster model of -Fe, having a stacking fault zone, have been investigated. The system energy is calculated using the atom superposition and electron delocalization molecular orbital (ASED-MO) method. By modifying the geometrical positions of the impurity within the cluster we found that H occupies nearly octahedral sites on a stacking fault plane. A second H residing near the former and the possible formation of H-H pairing is also addressed. The relative stability of H-H pairs in the iron matrix is compared with that of the molecule, in the vacuum.

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Performance study of a PEM fuel cell

Gonnet

Robles

Moro

2012

International Journal of Hydrogen Energy

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Variation of Creep Properties in HP Steel by Influence of Temperature

Alessio

González

Pirrone

et al. 2012

Procedia Materials Science

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Comportamiento al creep de un polímero utilizado para impresión 3D

et al. 2018

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RESUMEN En los últimos años se está utilizando, ampliamente, la construcción aditiva o impresión 3D, para la fabricación de bienes tecnológicos. Este procedimiento de construcción tiene y tendrá un gran impacto industrial. Existen muchos procedimientos de impresión 3D y entre ellos el más conocido se denomina Modelado por Deposición de Filamento (MDF). El objetivo del presente trabajo se orienta a la caracterización experimental de propiedades mecánicas de piezas construidas por impresión 3D con polímeros plásticos. Si bien ya se han efectuado varios estudios sobre la caracterización de propiedades mecánicas de piezas impresas por MDF, se debe mencionar que es poco lo evaluado relativo al fenómeno de creep o de termofluencia. En este trabajo se estudian las propiedades a la termofluencia del poli(ácido láctico) (PLA). Este polímero es termoplástico y biodegradable y se utiliza tanto en estado amorfo como cristalino, por lo que presenta numerosas aplicaciones tecnológicas. Los ensayos de termofluencia por tracción, se efectúan a una temperatura de 303 K, y a niveles de tensión correspondientes entre el 25% y 50% del límite de fluencia. Para ello, se emplean probetas estandarizadas construidas con diversos trazados de deposición del filamento plástico.

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The electronic structure and bonding of an hydrogen pair near a FCC Fe stacking fault

Juan

Moro

Brizuela

et al. 2002

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The electronic structure and bonding of hydrogen near a fcc Fe stacking fault

Moro

Ferullo

Brizuela

et al. 2000

J. Phys. D: Appl. Phys.

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The atom superposition and electron delocalization molecular orbital (ASED-MO) semiempirical method is used to analyse the atomic hydrogen-Fe interaction. The face centred cubic (fcc) Fe model contains a stacking fault and as a comparison the H-fcc Fe (normal) system is also studied. The solid is represented by a cluster of 180 metallic atoms distributed in five layers. The interstitial atoms localized in different geometric positions found an energetic minimum in a zone close to octahedral interstitial holes in the stacking fault. The electronic structure shows that the H-Fe bond involves mainly the Fe 4s and 4p orbitals and the 1s H orbital. The Fe-Fe bond near H is destabilized, to approximately 27% of its original value.

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Variation of Creep Resistance in Ferritic Steels by a Heat Treatment

González

Molina

Delavalle

et al. 2015

Procedia Materials Science

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L. Moro

The interaction of carbon and hydrogen in a αα-Fe divacancy

A theory of hydrogen trapping in a faulted zone of FCC iron

Performance study of a PEM fuel cell

Variation of Creep Properties in HP Steel by Influence of Temperature

Comportamiento al creep de un polímero utilizado para impresión 3D

The electronic structure and bonding of an hydrogen pair near a FCC Fe stacking fault

The electronic structure and bonding of hydrogen near a fcc Fe stacking fault

Variation of Creep Resistance in Ferritic Steels by a Heat Treatment

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