[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/scs.2016.22.4.889

Differential cubature method for vibration analysis of embedded FG-CNT-reinforced piezoelectric cylindrical shells subjected to uniform and non-uniform temperature distributions

Madani, Hamid (Young Researcher and Elite Club, Jasb Branch, Islamic Azad University)
Hosseini, Hadi (Department of Civil Engineering, Khomein Branch, Islamic Azad University)
Shokravi, Maryam (Buein Zahra Technical University)

Publication Information

Steel and Composite Structures / v.22, no.4, 2016 , pp. 889-913 More about this Journal

Abstract

Vibration analysis of embedded functionally graded (FG)-carbon nanotubes (CNT)-reinforced piezoelectric cylindrical shell subjected to uniform and non-uniform temperature distributions are presented. The structure is subjected to an applied voltage in thickness direction which operates in control of vibration behavior of system. The CNT reinforcement is either uniformly distributed or functionally graded (FG) along the thickness direction indicated with FGV, FGO and FGX. Effective properties of nano-composite structure are estimated through Mixture low. The surrounding elastic foundation is simulated with spring and shear constants. The material properties of shell and elastic medium constants are assumed temperature-dependent. The motion equations are derived using Hamilton's principle applying first order shear deformation theory (FSDT). Based on differential cubature (DC) method, the frequency of nano-composite structure is obtained for different boundary conditions. A detailed parametric study is conducted to elucidate the influences of external applied voltage, elastic medium type, temperature distribution type, boundary conditions, volume percent and distribution type of CNT are shown on the frequency of system. In addition, the mode shapes of shell for the first and second modes are presented for different boundary conditions. Numerical results indicate that applying negative voltage yields to higher frequency. In addition, FGX distribution of CNT is better than other considered cases.

Keywords

vibration of piezoelectric shell; FG-CNT; DC method; Non-uniform temperature distribution; temperature-dependent;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
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