Hydrostatic Pressure And Bundles
Mostrando 1-4 de 4 artigos, teses e dissertações.
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1. Hetero-nanotubos sob pressão hidrostática: um estudo ab initio / Hetero-nanotubes under hydrostatic pressure: an ab initio study
In this work the electronic and structural properties of the hetero-nanotube bundles, composed of a CNT (6,0) encapsulated in a BNNT (14,0) (CNT (6,0)@BNNT (14,0)) and a BNNT (6,0) encapsulated in a CNT (14,0) (BNNT(6,0)@CNT (14,0)), under hydrostatic pressure. For this, we applied density functional theory and generalized gradient approximation to the excha
Publicado em: 2011
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2. Estudo das propriedades estruturais e eletrônicas de bundles de nanotubos de BN dupla camada sob pressão / Study of structural and electronic properties of bundles double-layer BN nanotubes under pressure
No presente trabalho estudamos as propriedades estruturais e eletrônicas de bundles de nanotubos de BN de dupla camada (10; 0)@(17; 0) sem intercalação e intercalados com a molécula H2SO4, submetidos à variação de pressão hidrostática. Para estudar tais propriedades usamos o método ab initio, baseado na teoria do funcional da densidade e da aproxim
Publicado em: 2011
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3. Study of First Principles of Bundles of Nanotubes of Boron Nitride, under Pressure Hydrostatic / Estudo de Primeiros Princípios de Bundles de Nanotubos de Nitreto de Boro sob Pressão Hidrostática
In this work were studied the electronic, vibrations and structural properties of boron nitride nanotube bundles (16,0), (12,0) and (8,0), when submitted to the hydrostatic pressure changes. To study such properties, we used the ab initio method employing density functional theory in the approach of the generalized gradient approximation. All the simulations
Publicado em: 2007
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4. Changes produced by increased hydrostatic pressure in isometric contractions of rat fast muscle.
1. Muscle fibre bundles isolated from the extensor digitorum longus (a fast muscle) of the rat were exposed to different hydrostatic pressures (range 0.1-10 MPa), in order to determine the pressure dependence of their isometric contractions. 2. The pressure dependent changes in the contractions were reversible and linearly related to pressure. 3. The peak te