期刊
MOLECULES
卷 27, 期 5, 页码 -出版社
MDPI
DOI: 10.3390/molecules27051729
关键词
gamma-graphyne structures; nonlinear finite element analysis; shear; stress-strain
In this study, a nonlinear, spring-based finite element approach is used to predict the nonlinear mechanical response of graphyne structures under shear loading. Different types of graphyne structures are numerically investigated, and their shear mechanical properties are calculated and compared with other estimations.
In this study, a nonlinear, spring-based finite element approach is employed in order to predict the nonlinear mechanical response of graphyne structures under shear loading. Based on Morse potential functions, suitable nonlinear spring finite elements are formulated simulating the interatomic interactions of different graphyne types. Specifically, the four well-known types of gamma-graphyne, i.e., graphyne-1 also known as graphyne, graphyne-2 also known as graphdiyne, graphyne-3, and graphyne-4 rectangular sheets are numerically investigated applying appropriate boundary conditions representing shear load. The obtained finite element analysis results are employed to calculate the in-plane shear stress-strain behaviour, as well as the corresponding mechanical properties as shear modulus and shear strength. Comparisons of the present graphyne shearing response predictions with other corresponding estimations are performed to validate the present research results.
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