Modeling the mechanical properties of functionalized carbon nanotubes and their composites: Design at the atomic level

Qing-Sheng Yang; Bing-Qi Li; Xiao-Qiao He; Yiu-Wing Mai

doi:10.1155/2014/482056

Modeling the mechanical properties of functionalized carbon nanotubes and their composites: Design at the atomic level

Qing-Sheng Yang, Bing-Qi Li, Xiao-Qiao He, Yiu-Wing Mai

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

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Abstract

This investigation focuses on the design of functionalization configuration at the atomic level to determine the influence of atomic structure on the mechanical properties of functionalized carbon nanotubes (F-CNTs) and their composites. Tension and compressive buckling behaviors of different configurations of CNTs functionalized by H atoms are studied by a molecular dynamics (MD) method. It is shown that H-atom functionalization reduces Young's modulus of CNTs, but Young's modulus is not sensitive to the functionalization configuration. The configuration does, however, affect the tensile strength and critical buckling stress of CNTs. Further, the stress-strain relations of composites reinforced by nonfunctionalized and various functionalized CNTs are analyzed. © 2014 Qing-Sheng Yang et al.

Original language	English
Article number	482056
Journal	Advances in Condensed Matter Physics
Volume	2014
DOIs	https://doi.org/10.1155/2014/482056
Publication status	Published - 2014

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abstract = "This investigation focuses on the design of functionalization configuration at the atomic level to determine the influence of atomic structure on the mechanical properties of functionalized carbon nanotubes (F-CNTs) and their composites. Tension and compressive buckling behaviors of different configurations of CNTs functionalized by H atoms are studied by a molecular dynamics (MD) method. It is shown that H-atom functionalization reduces Young's modulus of CNTs, but Young's modulus is not sensitive to the functionalization configuration. The configuration does, however, affect the tensile strength and critical buckling stress of CNTs. Further, the stress-strain relations of composites reinforced by nonfunctionalized and various functionalized CNTs are analyzed. {\textcopyright} 2014 Qing-Sheng Yang et al.",

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AU - He, Xiao-Qiao

AU - Mai, Yiu-Wing

PY - 2014

Y1 - 2014

N2 - This investigation focuses on the design of functionalization configuration at the atomic level to determine the influence of atomic structure on the mechanical properties of functionalized carbon nanotubes (F-CNTs) and their composites. Tension and compressive buckling behaviors of different configurations of CNTs functionalized by H atoms are studied by a molecular dynamics (MD) method. It is shown that H-atom functionalization reduces Young's modulus of CNTs, but Young's modulus is not sensitive to the functionalization configuration. The configuration does, however, affect the tensile strength and critical buckling stress of CNTs. Further, the stress-strain relations of composites reinforced by nonfunctionalized and various functionalized CNTs are analyzed. © 2014 Qing-Sheng Yang et al.

AB - This investigation focuses on the design of functionalization configuration at the atomic level to determine the influence of atomic structure on the mechanical properties of functionalized carbon nanotubes (F-CNTs) and their composites. Tension and compressive buckling behaviors of different configurations of CNTs functionalized by H atoms are studied by a molecular dynamics (MD) method. It is shown that H-atom functionalization reduces Young's modulus of CNTs, but Young's modulus is not sensitive to the functionalization configuration. The configuration does, however, affect the tensile strength and critical buckling stress of CNTs. Further, the stress-strain relations of composites reinforced by nonfunctionalized and various functionalized CNTs are analyzed. © 2014 Qing-Sheng Yang et al.

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DO - 10.1155/2014/482056

M3 - RGC 21 - Publication in refereed journal

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VL - 2014

JO - Advances in Condensed Matter Physics

JF - Advances in Condensed Matter Physics

M1 - 482056

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Modeling the mechanical properties of functionalized carbon nanotubes and their composites: Design at the atomic level

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