Large De ection of Functionally Graded Cantilever Flexible Beam with Geometric Non-Linearity: Analytical and Numerical Approaches
@inproceedings{Rahimi2010LargeDE,
title={Large De ection of Functionally Graded Cantilever Flexible Beam with Geometric Non-Linearity: Analytical and Numerical Approaches},
author={G. H. Rahimi and A. Davoodinik},
year={2010}
}Analytical and Adomian decomposition methods have been developed to determine the large de ection of a functionally graded cantilever beam under inclined end loading by fully accounting for geometric nonlinearities, and by incorporating the physical properties of functionally graded materials, and have also been solved. The large de ection problem will also be solved by using an FEA solver. Results obtained only due to end loading are validated using a developed analytical solution. The Adomian… CONTINUE READING
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SHOWING 1-10 OF 34 REFERENCES
A Simple and Accurate Method for Determining Large Deflections in Compliant Mechanisms Subjected to End Forces and Moments
- Engineering
- 1998
- 102
Large-deformation tests and total-Lagrangian finite-element analyses of flexible beams
- Mathematics
- 2000
- 45
- Highly Influential
Design of functionally graded piezoelectric actuators using topology optimization
- Materials Science, Engineering
- SPIE Smart Structures and Materials + Nondestructive Evaluation and Health Monitoring
- 2006
- 4
- PDF
Parametric Deflection Approximations for End-Loaded, Large-Deflection Beams in Compliant Mechanisms
- Mathematics
- 1995
- 284
Analysis of out-of-plane displacement and stress field in a piezocomposite plate with functionally graded microstructure
- Materials Science
- 2001
- 131
ISOPARAMETRIC GRADED FINITE ELEMENTS FOR NONHOMOGENEOUS ISOTROPIC AND ORTHOTROPIC MATERIALS
- Mathematics, Materials Science
- 2002
- 356
- PDF