Title :
An iterative finite difference scheme for buckling of graphene beam subject to axial compressive load
Author :
Elgindi, Mohamed B. ; Dongming Wei ; Ghazy, Mohammed A.
Author_Institution :
Texas A&M Univ. - Qatar, Doha, Qatar
Abstract :
In this paper buckling loads and modes of an Euler beam made of graphene are considered. An eigenvalue problem is formulated with an additional parameter representing material´s elastoplasticity. Analytical approximate solution using the perturbation method is presented. This approximate solution is used as a basis for an iterative finite difference scheme to develop a more accurate solution. Deflection at points along the beam are calculated using this iterative finite difference scheme. Convergence with good accuracy is achieved.
Keywords :
buckling; eigenvalues and eigenfunctions; elastoplasticity; finite difference methods; graphene; iterative methods; perturbation theory; C; Euler beam; analytical approximate solution; axial compressive loading; eigen-value problem; elastoplasticity; graphene beam buckling; iterative finite difference scheme; perturbation method; point deflection; Force; Graphene; Load modeling; Materials; Strain; Stress;
Conference_Titel :
Biomedical Engineering (MECBME), 2014 Middle East Conference on
Conference_Location :
Doha
DOI :
10.1109/MECBME.2014.6783211
