A Tunable Metamaterial Joint for Mechanical Shock Applications Inspired by Carbon Nanotubes

Giannopoulos, Georgios I.; Georgantzinos, Stelios K.

doi:10.3390/app112311139

Cited by 3 publications

(1 citation statement)

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“…Nanomaterials such as graphene may provide many enhanced properties including high strength, stiffness, and light weight [ 2 ]. Researchers also utilize nanomaterials in structures to improve the mechanical behavior and other performance [ 3 ].…”

Section: Introductionmentioning

confidence: 99%

Exact Solutions for Torsion and Warping of Axial-Loaded Beam-Columns Based on Matrix Stiffness Method

et al. 2022

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The typically-used element torsional stiffness GJ/L (where G is the shear modulus, J the St. Venant torsion constant, and L the element length) may severely underestimate the torsional stiffness of thin-walled nanostructural members, due to neglecting element warping deformations. In order to investigate the exact element torsional stiffness considering warping deformations, this paper presents a matrix stiffness method for the torsion and warping analysis of beam-columns. The equilibrium analysis of an axial-loaded torsion member is conducted, and the torsion-warping problem is solved based on a general solution of the established governing differential equation for the angle of twist. A dimensionless factor is defined to consider the effect of axial force and St. Venant torsion. The exact element stiffness matrix governing the relationship between the element-end torsion/warping deformations (angle and rate of twist) and the corresponding stress resultants (torque and bimoment) is derived based on a matrix formulation. Based on the matrix stiffness method, the exact element torsional stiffness considering the interaction of torsion and warping is derived for three typical element-end warping conditions. Then, the exact element second-order stiffness matrix of three-dimensional beam-columns is further assembled. Some classical torsion-warping problems are analyzed to demonstrate the established matrix stiffness method.

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Section: Introductionmentioning

confidence: 99%