THREE DIMENSIONAL VIBRATION AND BENDING ANALYSIS OF CARBON NANO-TUBES EMBEDDED IN ELASTIC MEDIUM BASED ON THEORY OF ELASTICITY
Keywords:
CARBON NANO-TUBES, 3D ELASTICITY, FREE VIBRATION, BENDINGAbstract
THIS PAPER STUDIES FREE VIBRATION AND BENDING BEHAVIOR OF SINGLE-WALLED CARBON NANOTUBES (SWCNTS) EMBEDDED ON ELASTIC MEDIUM BASED ON THREE-DIMENSIONAL THEORY OF ELASTICITY. TO ACCOUNTING THE SIZE EFFECT OF CARBON NANOTUBES, NON-LOCAL THEORY IS ADOPTED TO SHELL MODEL. THE NONLOCAL PARAMETER IS INCORPORATED INTO ALL CONSTITUTIVE EQUATIONS IN THREE DIMENSIONS. THE SURROUNDING MEDIUM IS MODELED AS TWO-PARAMETER ELASTIC FOUNDATION. BY USING FOURIER SERIES EXPANSION IN AXIAL AND CIRCUMFERENTIAL DIRECTION, THE SET OF COUPLED GOVERNING EQUATIONS ARE REDUCED TO THE ORDINARY DIFFERENTIAL EQUATIONS IN THICKNESS DIRECTION. THEN, THE STATE-SPACE METHOD AS AN EFFICIENT AND ACCURATE METHOD IS USED TO SOLVE THE RESULTING EQUATIONS ANALYTICALLY. COMPREHENSIVE PARAMETRIC STUDIES ARE CARRIED OUT TO SHOW THE INFLUENCES OF THE NONLOCAL PARAMETER, RADIAL AND SHEAR ELASTIC STIFFNESS, THICKNESS-TO-RADIUS RATIO AND RADIUS-TO-LENGTH RATIO.Downloads
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2014-09-19
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