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W4281255309 abstract "With advances in nanotechnology, two-dimensional nanostructures have shown great promise for a wide range of applications. Of particular interest is their spiral forms as essential components of nanoelectromechanical systems. In this paper, the mechanical behavior of the spirals made of different graphyne structures under tension is investigated using molecular dynamics simulation and the results are compared with graphene nano-spirals. Inspired from the conventional macroscale springs with various cross-sections that have different behaviors against the external axial loads, we comprehensively analyze the effects of various base structures on superelastic deformation capabilities and fracture mechanisms of the nano-spirals. In general, five distinct deformation stages corresponding to van der Waals nonbonding interaction and covalent bonding are observed in the force-strain diagrams. Moreover, the effects of inner and outer radii on the mechanical characteristics are examined. It is found that the stretchability of nano-spirals increases up to a maximum threshold as the outer radius increases, then decreases with its further increase. This decrease is seen more clearly in spirals made of graphene and γ-graphyne while α- and β-graphyne nano-spirals outperform in larger widths. Hence, we show that deliberate manipulation of the base structures can significantly extend the applicability of nano-spirals to larger widths." @default.
W4281255309 created "2022-05-23" @default.
W4281255309 creator A5003271268 @default.
W4281255309 creator A5032678251 @default.
W4281255309 creator A5058723801 @default.
W4281255309 date "2022-08-01" @default.
W4281255309 modified "2023-09-27" @default.
W4281255309 title "Graphyne nano-spirals under tension: Effects of base structures on superelasticity and fracture mechanisms" @default.
W4281255309 cites W1966137756 @default.
W4281255309 cites W1967883617 @default.
W4281255309 cites W1981432390 @default.
W4281255309 cites W1986354818 @default.
W4281255309 cites W1987821426 @default.
W4281255309 cites W1991794210 @default.
W4281255309 cites W1999206703 @default.
W4281255309 cites W2015939267 @default.
W4281255309 cites W2016435917 @default.
W4281255309 cites W2017196167 @default.
W4281255309 cites W2018278909 @default.
W4281255309 cites W2018858346 @default.
W4281255309 cites W2019465613 @default.
W4281255309 cites W2019481672 @default.
W4281255309 cites W2032668656 @default.
W4281255309 cites W2038433164 @default.
W4281255309 cites W2044153614 @default.
W4281255309 cites W2045023774 @default.
W4281255309 cites W2048254810 @default.
W4281255309 cites W2052667112 @default.
W4281255309 cites W2055764446 @default.
W4281255309 cites W2058122340 @default.
W4281255309 cites W2061728132 @default.
W4281255309 cites W2067632157 @default.
W4281255309 cites W2075884680 @default.
W4281255309 cites W2077938819 @default.
W4281255309 cites W2081026884 @default.
W4281255309 cites W2082407429 @default.
W4281255309 cites W2093760441 @default.
W4281255309 cites W2094467958 @default.
W4281255309 cites W219899479 @default.
W4281255309 cites W2221929496 @default.
W4281255309 cites W2262462384 @default.
W4281255309 cites W2314075714 @default.
W4281255309 cites W2325823274 @default.
W4281255309 cites W2409543605 @default.
W4281255309 cites W2476177292 @default.
W4281255309 cites W2588057225 @default.
W4281255309 cites W2613774541 @default.
W4281255309 cites W2738380497 @default.
W4281255309 cites W2793205523 @default.
W4281255309 cites W2793471611 @default.
W4281255309 cites W2797226633 @default.
W4281255309 cites W2801458927 @default.
W4281255309 cites W2803759013 @default.
W4281255309 cites W2883822916 @default.
W4281255309 cites W2888269151 @default.
W4281255309 cites W2910071524 @default.
W4281255309 cites W2939544877 @default.
W4281255309 cites W2944288819 @default.
W4281255309 cites W2961235800 @default.
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W4281255309 cites W3003933785 @default.
W4281255309 cites W3029493545 @default.
W4281255309 cites W3036190315 @default.
W4281255309 cites W4249401280 @default.
W4281255309 doi "https://doi.org/10.1016/j.mechmat.2022.104367" @default.
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