An analytical method for temperature-dependent free vibration analysis of functionally graded beams with general boundary conditions

Composite Structures

Volumn 92, Issue 8, 2010, Pages 1877-1887

  Mahi, A ^a   Adda Bedia, E A ^b   Tounsi, A ^b   Mechab, I ^b  

^a UNIVERSITY OF BLIDA   (Algeria)

^b UNIVERSITY OF SIDI BEL ABBES   (Algeria)

Author keywords

Free vibration; Functionally graded beam; Shear deformation theory; Variational method

Indexed keywords

ANALYTICAL METHOD; DIFFERENT BOUNDARY CONDITION; EXACT SOLUTION; EXPONENTIAL LAW; FREE VIBRATION; FREE VIBRATION FREQUENCY; FREE-VIBRATION ANALYSIS; FUNCTIONALLY GRADED BEAMS; GENERAL BOUNDARY CONDITIONS; GOVERNING EQUATIONS OF MOTION; HAMILTON'S PRINCIPLE; HIGHER ORDER SHEAR DEFORMATION THEORY; INITIALLY STRESSED; MATERIAL PROPERTY; POWER LAW DISTRIBUTION; SHEAR DEFORMATION THEORY; SYSTEM OF ORDINARY DIFFERENTIAL EQUATIONS; TEMPERATURE DEPENDENT; TEMPERATURE FIELD; TEMPERATURE RISE; VARIATIONAL METHODS;

BOUNDARY CONDITIONS; EQUATIONS OF MOTION; FUNCTIONALLY GRADED MATERIALS; ORDINARY DIFFERENTIAL EQUATIONS; SHEAR DEFORMATION;

VIBRATION ANALYSIS;

BEAM; DEFORMATION; MATHEMATICAL ANALYSIS; SHEAR PROPERTY; TEMPERATURE; VIBRATION;

EID: 77950367499     PISSN: 02638223     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.compstruct.2010.01.010     Document Type: Article

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