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![coreshellnanowire](thumbnails/s61.jpg) |
![Nanotube with electric field](thumbnails/s62.jpg) |
![The axial buckling force increases with increasing intensity of the electric field](thumbnails/s63.jpg) |
![Double-walled carbon nanotube (DWCNT) subjected to axial magnetic field](thumbnails/s64.jpg) |
![Nanotube intersecting a graphene sheet](thumbnails/s65.jpg) |
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Nanotube with electric field |
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The axial buckling force increases with increasing intensity of the electric field |
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Double-walled carbon nanotube (DWCNT) subjected to axial magnetic field |
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Nanotube intersecting a graphene sheet |
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![Graphene sheet embedded in an elastic medium](thumbnails/s66.jpg) |
![Molecular models of nanocones with various apex angles](thumbnails/s67.jpg) |
![Vibration modes of molecular nanocones with various apex angles](thumbnails/s68.jpg) |
![Functionally graded porosity in a nanoshell](thumbnails/s69.jpg) |
![Nanotubes with a defect (vacancy)](thumbnails/s70.jpg) |
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Graphene sheet embedded in an elastic medium |
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Molecular models of nanocones with various apex angles |
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Vibration modes of molecular nanocones with various apex angles |
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Functionally graded porosity in a nanoshell |
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Nanotubes with a defect (vacancy) |
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![Nanotube buckling and postbuckling](thumbnails/s71.jpg) |
![Nanotube postbuckling and fracture](thumbnails/s72.jpg) |
![Atomistic model of a Carbon NanoTube (CNT) junction: Armchair structure joined to Zigzag structure](thumbnails/s73.jpg) |
![Buckling mode of an axially compressed carbon nanotube with an armchair-to-zigzag junction](thumbnails/s74.jpg) |
![Vibration of a cracked nanobeam embedded in an elastic medium](thumbnails/s75.jpg) |
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Nanotube buckling and postbuckling |
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Nanotube postbuckling and fracture |
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Atomistic model of a Carbon NanoTube (CNT) junction: Armchair structure joined to Zigzag structure |
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Buckling mode of an axially compressed carbon nanotube with an armchair-to-zigzag junction |
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Vibration of a cracked nanobeam embedded in an elastic medium |
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