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AUTHOR(S): Elza M. M. Fonseca, Carlos Aurelio Andreucci
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TITLE Numerical Study of Hollow-Walled Nanotubes Under Static Compression |
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ABSTRACT In this work, different hollow-walled titanium Ti6Al4V nanotubes in chiral structures are modelled using the finite element method. Nine numerical models of chirality C (n, m) types were built. The structure of the titanium nanotube is named chiral and expressed by a vector C, depending on two base vectors, where n and m indicate the number of unit vectors in two directions, called the indices of the nanotube. The chiral designation is from the chirality as an essential geometric property of a mirror asymmetry used in several branches of science. In this work, several chirality measures have been computationally tested using the finite element method to quantify their characteristics and the physical behaviour. |
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KEYWORDS Finite Element Method, Hollow-Walled, Nanotube, Static Analysis |
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Cite this paper Elza M. M. Fonseca, Carlos Aurelio Andreucci. (2025) Numerical Study of Hollow-Walled Nanotubes Under Static Compression. International Journal of Applied Physics, 10, 197-202 |
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