eprintid: 4112
rev_number: 9
eprint_status: archive
userid: 354
dir: disk0/00/00/41/12
datestamp: 2020-12-04 08:24:16
lastmod: 2020-12-04 08:24:16
status_changed: 2020-12-04 08:24:16
type: article
metadata_visibility: show
creators_name: Le, Kha Hoa
creators_name: Pham, Van Vinh
creators_name: Nguyen, Dinh Duc
creators_name: Nguyen, Thoi Trung
creators_name: Le, Truong Son
creators_name: Do, Van Thom
creators_id: vinhpv@gmail.com
creators_id: ducnd@vnu.edu.vn
title: Bending and free vibration analyses of functionally graded material nanoplates via a novel nonlocal single variable shear deformation plate theory
ispublished: pub
subjects: isi
divisions: CET_uet
abstract: A novel nonlocal shear deformation theory is established to investigate functionally graded nanoplates. The significant benefit of this theory is that it consists of only one unknown variable in its displacement formula and governing differential equation, but it can take into account both the quadratic distribution of the shear strains and stresses through the plate thickness as well as the small-scale effects on nanostructures. The numerical solutions of simply supported rectangular functionally graded material nanoplates are carried out by applying the Navier procedure. To indicate the accuracy and convergence of this theory, the present solutions have been compared with other published results. Furthermore, a deep parameter study is also carried out to exhibit the influence of some parameters on the response of the functionally graded material nanoplates.
date: 2020-10
date_type: published
publisher: SAGE Publications Ltd
official_url: https://doi.org/10.1177/0954406220964522
full_text_status: public
publication: Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science
refereed: TRUE
issn: 20412983
citation:   Le, Kha Hoa and Pham, Van Vinh and Nguyen, Dinh Duc and Nguyen, Thoi Trung and Le, Truong Son and Do, Van Thom  (2020) Bending and free vibration analyses of functionally graded material nanoplates via a novel nonlocal single variable shear deformation plate theory.  Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science .    ISSN 20412983     
document_url: https://eprints.uet.vnu.edu.vn/eprints/id/eprint/4112/1/0954406220964522_ai%3D1gvoi%26mi%3D3ricys%26af%3DR%26