Actual fatigue reliability of structural material: Vibration efficiency

Muzamal Hussain; Mohamed A. Khadimallah; Hamdi Ayed; Adil Alshoaibi; Hassen Loukil; Ghazi Alsoruji; Abdelouahed Tounsi

doi:10.12989/acc.2022.13.4.327

Actual fatigue reliability of structural material: Vibration efficiency

Muzamal Hussain
, Mohamed A. Khadimallah
, Hamdi Ayed
, Adil Alshoaibi
, Hassen Loukil
, Ghazi Alsoruji
, Abdelouahed Tounsi

Civil Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

This paper is concerned with the vibration analysis of middle layer cylindrical shell made of functionally graded material. The outer layers and inner layer are composed of functionally graded and isotropic material respectively. The Rayleigh Ritz method is applied to solve the presented shell dynamics equations. Two configurations are constructed with layers distributions. Fundamental natural frequencies of the three layered cylindrical shell is plotted against the circumferential wave number with different power law exponents. The frequency decreases with the increase of power law exponent. The fundamental natural frequencies first decreases and fall down to its minimum value, after frequencies increases with circumferential wave number. This is due to change in the magnitude of extensional and bending energies of the cylindrical shells.

Original language	English
Pages (from-to)	327-337
Number of pages	11
Journal	Advances in Concrete Construction
Volume	13
Issue number	4
DOIs	https://doi.org/10.12989/acc.2022.13.4.327
State	Published - Apr 2022

Keywords

Circumferential wave number
Dynamics equations
Functionally graded material
Fundamental natural frequencies
Matlab

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10.12989/acc.2022.13.4.327

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title = "Actual fatigue reliability of structural material: Vibration efficiency",

abstract = "This paper is concerned with the vibration analysis of middle layer cylindrical shell made of functionally graded material. The outer layers and inner layer are composed of functionally graded and isotropic material respectively. The Rayleigh Ritz method is applied to solve the presented shell dynamics equations. Two configurations are constructed with layers distributions. Fundamental natural frequencies of the three layered cylindrical shell is plotted against the circumferential wave number with different power law exponents. The frequency decreases with the increase of power law exponent. The fundamental natural frequencies first decreases and fall down to its minimum value, after frequencies increases with circumferential wave number. This is due to change in the magnitude of extensional and bending energies of the cylindrical shells.",

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T2 - Vibration efficiency

AU - Hussain, Muzamal

AU - Khadimallah, Mohamed A.

AU - Ayed, Hamdi

AU - Alshoaibi, Adil

AU - Loukil, Hassen

AU - Alsoruji, Ghazi

AU - Tounsi, Abdelouahed

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N2 - This paper is concerned with the vibration analysis of middle layer cylindrical shell made of functionally graded material. The outer layers and inner layer are composed of functionally graded and isotropic material respectively. The Rayleigh Ritz method is applied to solve the presented shell dynamics equations. Two configurations are constructed with layers distributions. Fundamental natural frequencies of the three layered cylindrical shell is plotted against the circumferential wave number with different power law exponents. The frequency decreases with the increase of power law exponent. The fundamental natural frequencies first decreases and fall down to its minimum value, after frequencies increases with circumferential wave number. This is due to change in the magnitude of extensional and bending energies of the cylindrical shells.

AB - This paper is concerned with the vibration analysis of middle layer cylindrical shell made of functionally graded material. The outer layers and inner layer are composed of functionally graded and isotropic material respectively. The Rayleigh Ritz method is applied to solve the presented shell dynamics equations. Two configurations are constructed with layers distributions. Fundamental natural frequencies of the three layered cylindrical shell is plotted against the circumferential wave number with different power law exponents. The frequency decreases with the increase of power law exponent. The fundamental natural frequencies first decreases and fall down to its minimum value, after frequencies increases with circumferential wave number. This is due to change in the magnitude of extensional and bending energies of the cylindrical shells.

KW - Circumferential wave number

KW - Dynamics equations

KW - Functionally graded material

KW - Fundamental natural frequencies

KW - Matlab

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M3 - Article

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SP - 327

EP - 337

JO - Advances in Concrete Construction

JF - Advances in Concrete Construction

IS - 4

ER -

Actual fatigue reliability of structural material: Vibration efficiency

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