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AuthorHadji, Lazreg
AuthorPlevris, Vagelis
AuthorMadan, Royal
Available date2023-08-27T05:58:08Z
Publication Date2023
Publication Name2nd International Conference on Civil Infrastructure and Construction
CitationHadji L., Plevris V. & Madan R., “A Static and Free Vibration Analysis of Porous Functionally Graded Beams”, The 2nd International Conference on Civil Infrastructure and Construction (CIC 2023), Doha, Qatar, 5-8 February 2023, DOI: https://doi.org/10.29117/cic.2023.0059
ISSN2958-3128
URIhttps://doi.org/10.29117/cic.2023.0059
URIhttp://hdl.handle.net/10576/46762
AbstractIn this work, the static and free vibration analysis of functionally graded (FG) porous beams is investigated using a new higher-order shear deformation model (HSD). The porosity that develops naturally during the fabrication of a material is arbitrary in nature. Therefore, in the present study, a variation is considered taking into account three distribution patterns, namely (i) even distribution, (ii) uneven distribution, and (iii) the logarithmic-uneven pattern. Furthermore, the impact of several micromechanical models on the bending and free vibration behavior of the beams was investigated. Different micromechanical models were used to examine the mechanical properties of functionally graded beams, the properties of which change continuously throughout the thickness following a power law. Using the HSD model, the equations of motion are obtained using Hamilton's principle. To obtain displacements, stresses, and frequencies, the Navier type solution method was employed, and the numerical results were compared to those published in the literature. The impact of porosity and volume fraction index, different micromechanical models, mode numbers, and geometry on the bending and natural frequencies of imperfect FG beams were investigated.
Languageen
PublisherQatar University Press
SubjectFG beam
Bending
Free vibration
Functionally graded materials
Porosity
TitleA Static and Free Vibration Analysis of Porous Functionally Graded Beams
TypeConference
Pagination433-441
ESSN2958-3136
dc.accessType Open Access


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