Skip to main content
Disciplines
Automotive Business IT + Informatics Construction + Real Estate Electrical Engineering + Electronics Energy + Sustainability Insurance + Risk Finance + Banking Management + Leadership Marketing + Sales Mechanical Engineering + Materials
Events
DE
EN
Books
Journals
Topic Page
Marketing
Start single access now
Access for companies
EXTENDED SEARCH
Log in
Top
Arabian Journal for Science and Engineering
Published in: Arabian Journal for Science and Engineering 10/2022

22-09-2022 | Research Article-Civil Engineering

Study on the Mechanical Instability of Bidirectional Imperfect FG Sandwich Plates Subjected to In-Plane Loading

Authors: Aissa Kabouche, Rabbab Bachir Bouiadjra, Attia Bachiri, Mohamed Sekkal, Samir Benyoucef, Mahmoud Mohamed Selim Saleh, Abdelouahed Tounsi, Muzamal Hussain

Published in: Arabian Journal for Science and Engineering | Issue 10/2022

Log in

Activate our intelligent search to find suitable subject content or patents.

search-config
loading …

Abstract

Mechanical buckling response of bidirectional functionally graded (BDFG) imperfect sandwich plates by using a quasi-3D solution is studied in this paper. The formulation used in the present study includes indeterminate integral terms and involves only four unknown functions. The material properties of the sandwich plates change in the axial and thickness direction as well as the porosity following a defined distribution law. Imperfect BDFG sandwich plates are considered to be submitted to a variety of in-plane compressive loads, such as uniform, linear and exponential. The equations of motion are obtained from the virtual work principle and the critical buckling loads are computed for plates with different boundary conditions. The results of the current formulation are checked with those available in the literature where good agreement is found. Finally, the parametric study of the in-plane mechanical buckling are carried out, including the porosity, plate geometric parameters, boundary conditions and grading indexes. The results reveal that these parameters have a great influence on the buckling response of BDFG porous sandwich plates. These results can serve as reference solutions for future investigations.
previous article Study on the Mechanical Properties and Microstructure of Fiber-Reinforced Concrete Subjected to Sulfate Erosion
next article Geotechnical Properties of Lime-Magnesium Slag Stabilized Clayey Sand: Experimental Study

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

  • über 102.000 Bücher
  • über 537 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Finance + Banking
  • Management + Führung
  • Marketing + Vertrieb
  • Maschinenbau + Werkstoffe
  • Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

  • über 67.000 Bücher
  • über 390 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Maschinenbau + Werkstoffe




 

Jetzt Wissensvorsprung sichern!

inform now
Literature
1.
Singh, S.J.; Nataraj, C.; Harsha, S.P.: Nonlinear dynamic analysis of a sandwich plate with S-FGM face sheets and homogeneous core subjected to harmonic excitation. J. Sandwich Struct. Mater. 23(6), 1831–1869 (2021)CrossRef
2.
Thai, H.-T.; Kim, S.-E.: A review of theories for the modeling and analysis of functionally graded plates and shells. Compos. Struct. 128, 70–86 (2015)CrossRef
3.
Njim, EK.; Sadeq, H.; Al-Waily, BM.: Analytical and numerical investigation of buckling load of functionally graded materials with porous metal of sandwich plate. Mater. Today: Proc. (2021) (in press)
4.
Trinh, M.-C.; Kim, S.-E.: Nonlinear thermomechanical behaviors of thin functionally graded sandwich shells with double curvature. Compos. Struct. 195, 335–348 (2018)CrossRef
5.
Sofiyev, A.H.: Application of the FOSDT to solution of buckling problem of FGM sandwich conical shells under hydrostatic pressure. Compos. Part B Eng. 144, 88–98 (2018)CrossRef
6.
Tung, H.V.: Thermal and thermomechanical postbuckling of FGM sandwich plates resting on elastic foundations with tangential edge constraints and temperature dependent properties. Compos. Struct. 131, 1028–1039 (2015)CrossRef
7.
Trinh, M.-C.; Nguyen, D.-D.; Kim, S.-E.: Effects of porosity and thermomechanical loading on free vibration and nonlinear dynamic response of functionally graded sandwich shells with double curvature. Aerosp. Sci. Technol. 87, 119–132 (2019)CrossRef
8.
Nguyen, D.-H.; Kim, S.-E.; Nguyen, D.K.; Do, Q.C.: Nonlinear buckling and post-buckling analysis of shear deformable stiffened truncated conical sandwich shells with functionally graded face sheets and a functionally graded porous core. J. Sandwich Struct. Mater. 23(7), 2700–2735 (2020)
9.
Chana, D.Q.; Quan, T.Q.; Kim, S.-E.; Duc, N.D.: Nonlinear dynamic response and vibration of shear deformable piezoelectric functionally graded truncated conical panel in thermal environments. Eur. J. Mech. A Solids 77, 103795 (2019)MathSciNetMATHCrossRef
10.
Vivek, K.S.; Sreedhar Babu, T.; Sai Ram, K.S.: Buckling analysis of functionally graded thin square plates with triangular cut-out subjected to uni-axial loads. Mater. Today: Proc. 24, 662–672 (2020)
11.
Xu, K.; Yuan, Y.; Li, M.: Buckling behaviour of functionally graded porous plates integrated with laminated composite faces sheets. Steel Compos. Struct. 32(5), 633–642 (2019)
12.
Sayyad, A.S.; Ghugal, Y.M.: On the buckling of advanced composite sandwich rectangular plates. J. Sandwich Struct. Mater. 23(7), 3164–3193 (2021)CrossRef
13.
Abdelrahman, W.G.: Effect of material transverse distribution profile on buckling of thinck functionally graded plates according to TSDT. Struct. Eng. Mech. 74(1), 83–90 (2020)
14.
Hadji, L.; Avcar, M.; Zouatnia, N.: Natural frequency analysis of imperfect FG sandwich plates resting on Winkler-Pasternak foundation. Mater. Today: Proc. 53, 153–160 (2022)
15.
Trinh, M.-C.; Kim, S.-E.: Deterministic and stochastic thermomechanical nonlinear dynamic responses of functionally graded sandwich plates. Compos. Struct. 274, 114359 (2021)CrossRef
16.
Yin, S.; Yu, T.; Bui, T.; Zheng, X.; Tanaka, S.: In-plane material inhomogeneity of functionally graded plates: a higher- order shear deformation plate isogeometric analysis. Comp. Part B: Eng. 106, 273–284 (2016)CrossRef
17.
Singh, S.J.; Harsha, S.P.: Exact solution for free vibration and buckling of sandwich S-FGM plates on pasternak elastic foundation with various boundary conditions. Int. J. Struct. Stab. Dyn. 19(3), 1950028 (2019)MathSciNetCrossRef
18.
Parida, S.; Mohanty, S.C.: Free vibration and buckling analysis of functionally graded plates resting on elastic foundation using higher order theory. Int. J. Struct. Stab. Dyn. 18(4), 1850049 (2018)MathSciNetCrossRef
19.
Belkhodja, Y.; Ouinas, D.; Zaoui, F.Z.; Fekirini, H.: An exponential-trigonometric higher order shear deformation theory (HSDT) for bending, free vibration, and buckling analysis of functionally graded materials (FGMs) plates. Adv. Compos. Lett. 28, 1–19 (2019)
20.
Belkhodja, Y.; Ouinas, D.; Fekirini, H.; Viña Olay, J.A.; Achour, B.; Touahmia, M.; Boukendakdji, M.: A new hybrid HSDT for bending, free vibration, and buckling analysis of FGM plates (2D & quasi-3D). Smart Struct. Syst. 29(3), 395–420 (2022)
21.
Nguyen, V.H.; Nguyen, T.K.; Thai, H.T.; Vo, T.H.: A new inverse trigonometric shear deformation theory for isotropic and functionally graded sandwich plates. Compos. B Eng. 66, 233–246 (2014)CrossRef
22.
Hadji, L.: Buckling analysis of sandwich plates with functionally graded porous layers using hyperbolic shear displacement model. Wind Struct. 32(1), 19–30 (2021)MathSciNet
23.
Hadji, L.; Avcar, M.: Free vibration analysis of fg porous sandwich plates under various boundary conditions. J. Appl. Comput. Mech. 7(2), 505–519 (2021)
24.
Zghal, S.; Frikha, A.; Dammak, F.: Mechanical buckling analysis of functionally graded power-based and carbon nanotubes-reinforced composite plates and curved panels. Compos. Part B Eng. 150, 165–183 (2018)MATHCrossRef
25.
Moradi-Dastjerdi, R.; Malek-Mohammadi, H.: Biaxial buckling analysis of functionally graded nanocomposite sandwich plates reinforced by aggregated carbon nanotube using improved high-order theory. J. Sandw. Struct. Mater. 19, 736–769 (2017)CrossRef
26.
Van Long, N.; Quoc, T.H.; Tu, T.M.J.: Bending and free vibration analysis of functionally graded plates using new eight unknown shear deformation theory by finite-element method. Int. J. Adv. Struct. Eng. 8(4), 391–399 (2016)CrossRef
27.
Dhuria, M.; Grover Goyal, K.: Influence of porosity distribution on static and buckling responses of porous functionally graded plates. Structures 34, 1458–1474 (2021)CrossRef
28.
Adhikari, B.; Dash, P.; Singh, B.N.: Buckling analysis of porous FGM sandwich plates under various types nonuniform edge compression based on higher order shear deformation theory. Compos. Sruct. 251, 112597 (2020)CrossRef
29.
Adhikari, B.; Singh, B.N.: Buckling characteristics of laminated functionally-graded cnt-reinforced composite plate under nonuniform uniaxial and biaxial in-plane edge loads. Int. J. Struct. Stab. Dyn. 20(2), 2050022 (2020)MathSciNetCrossRef
30.
Nguyen, Q.H.; Nguyen, L.B.; Nguyen, H.B.; Nguyen-Xuan, H.: A three-variable high order shear deformation theory for isogeometric free vibration, buckling and instability analysis of FG porous plates reinforced by graphene platelets. Compos. Struct. 245, 112321 (2020)CrossRef
31.
Kianian, O.; Sarrami-Foroushani, S.; Azhari, S.: Buckling analysis of functionally graded plates based on two-variable refined plate theory using the bubble finite strip method. AUT Journal of Civil Engineering. 1(2), 145–152 (2017)
32.
Liu, Z.; Wang, C.; Duan, G.; Tan, J.: A new refined plate theory with isogeometric approach for the static and buckling analysis of functionally graded plates. Int. J. Mech. Sci. 105036, 161–162 (2019)
33.
Li, D.; Deng, Z.; Chen, G.; Ma, T.: Mechanical and thermal buckling of exponentially graded sandwich plates. J. Therm. Stress. 41, 883–902 (2018)CrossRef
34.
Bouazza, M.; Zenkour, A.M.; Benseddiq, N.: Closed-from solutions for thermal buckling analyses of advanced nanoplates according to a hyperbolic four-variable refined theory with small-scale effects. Acta Mech. 229, 2251–2265 (2018)MathSciNetMATHCrossRef
35.
Trinh, M.-C.; Kim, S.-E.: A three variable refined shear deformation theory for porous functionally graded doubly curved shell analysis. Aerosp. Sci. Technol. 94, 105356 (2019)CrossRef
36.
Akavci, S.S.: Mechanical behavior of functionally graded sandwich plates on elastic foundation. Compos. B Eng. 96, 136–152 (2016)CrossRef
37.
Thai, H.-T.; Kim, S.-E.: A simple quasi-3D sinusoidal shear deformation theory for functionally graded plates. Compos. Struct. 99, 172–180 (2013)CrossRef
38.
Shahbaztabar, A.; Arteshyar, K.: Buckling analysis of functionally graded plates partially resting on elastic foundation using the differential quadrature element method. Acta. Mech. Sin. 35(1), 174–189 (2019)MathSciNetCrossRef
39.
Van Do, T.; Nguyen, D.K.; Nguyen, D.D.; Doan, D.H.; Bui, T.Q.: Analysis of bi-directional functionally graded plates by FEM and a new third-order shear deformation plate theory. Thin-Walled Struct. 119, 687–699 (2017)CrossRef
40.
Haciyev, V.C.; Sofiyev, A.H.; Kuruoglu, N.: Free bending vibration analysis of thin bidirectionally exponentially graded orthotropic rectangular plates resting on two-parameter elastic foundations. Compos. Struct. 15, 372–377 (2018)CrossRef
41.
Ahlawat, N.; Lal, R.: Buckling and vibrations of multi-directional functionally graded circular plate resting on elastic foundation. Procedia Eng. 144, 85–93 (2016)MATHCrossRef
42.
Esmaeilzadeh, M.; Kadkhodayan, M.: Dynamic analysis of stiffened bidirectional functionally graded plates with porosities under a moving load by dynamic relaxation method with kinetic damping. Aerosp. Sci. Technol. 93, 105333 (2019)CrossRef
43.
Hong, N.T.: Nonlinear static bending and free vibration analysis of bidirectional functionally graded material plates. Int. J. Aerosp. Eng. 20, 16 (2020)
44.
Lieu, Q.X.; Lee, D.; Kang, J.; Lee, J.: NURBS-based modeling and analysis for free vibration and buckling problems of in-plane bi-directional functionally graded plates. Mech. Adv. Mater. Struct. 26(12), 1064–1080 (2018)CrossRef
45.
Yang, H.S.; Dong, C.Y.; Wu, Y.H.: Postbuckling analysis of multi-directional perforated FGM plates using NURBS-based IGA and FCM. Appl. Math. Model. 84, 466–500 (2020)MathSciNetMATHCrossRef
46.
Chen, X.; Chen, L.; Huang, S.; Li, M.; Li, X.: Nonlinear forced vibration of in-plane bi-directional functionally graded materials rectangular plate with global and localized geometrical imperfections. Appl. Math. Model. 93, 443–466 (2021)MathSciNetMATHCrossRef
47.
Hussein, O.; Mulani, S.: Nonlinear aeroelastic stability analysis of in-plane functionally graded metal nanocomposite thin panels in supersonic flow. Thin-Walled Struct. 139, 398–411 (2019)CrossRef
48.
Singh, S.J.; Harsha, S.P.: Buckling analysis of FGM plates under uniform, linear and non-linear in-plane loading. J. Mech. Sci. Technol. 33(4), 1–7 (2019)CrossRef
49.
Sah, S.K.; Ghosh, A.: Influence of porosity distribution on free vibration and buckling analysis of multi-directional functionally graded sandwich plates. Compos. Struct. 279, 114795 (2022)CrossRef
50.
Achouri, F.; Benyoucef, S.; Bourada, F.; Bachir Bouiadjra, R.; Tounsi, A.: Robust quasi 3D computational model for mechanical response of FG thick sandwich plate. Struct. Eng. Mech. 70(5), 571–589 (2019)
51.
Ait Amar, M.; Abdelaziz, H.H.; Tounsi, A.: An efficient and simple refined theory for buckling and free vibration of exponentially graded sandwich plates under various boundary conditions. J. Sandwich Struct. Mater. 16, 293–318 (2014)CrossRef
52.
Le, C.I.; Tran, Q.D.; Pham, V.N.; Nguyen, D.K.: Free vibration and buckling of bidirectional functionally graded sandwich plates using an efficient Q9 element. Vietnam J. Mech. 43(3), 277–295 (2021)
53.
Boulal, A.; Bensattalah, T.; Karas, A.; Zidour, M.; Heireche, H.; Adda Bedia, E.A.: Buckling of carbon nanotube reinforced composite plates supported by Kerr foundation using Hamilton’s energy principle. Struct. Eng. Mech. 73(2), 209–223 (2020)
54.
Katariya, P.V.; Panda, S.K.: Numerical analysis of thermal post-buckling strength of laminated skew sandwich composite shell panel structure including stretching effect. Steel Compos. Struct. 34(2), 279–288 (2020)
55.
Belarbi, M.-O.; Houari, M.S.A.; Daikh, A.A.; Gargs, A.; Merzouki, T.; Chalak, H.D.; Hirane, H.: Nonlocal finite element model for the bending and buckling analysis of functionally graded nanobeams using a novel shear deformation theory. Compos. Struct. 264, 113712 (2021)CrossRef
56.
Civilek, O.; Avcar, M.: Free vibration and buckling analyses of CNT reinforced laminated non-rectangular plates by discrete singular convolution method. Eng. Comput. 38, 489–521 (2022)CrossRef
57.
Zhang, J.; Ullah, S.; Gao, Y.; Avcar, M.; Civalek, O.: Analysis of orthotropic plates by the two-dimensional generalized FIT method. Comput. Concr. 26(5), 421–427 (2020)
Metadata
Title
Study on the Mechanical Instability of Bidirectional Imperfect FG Sandwich Plates Subjected to In-Plane Loading
Authors
Aissa Kabouche
Rabbab Bachir Bouiadjra
Attia Bachiri
Mohamed Sekkal
Samir Benyoucef
Mahmoud Mohamed Selim Saleh
Abdelouahed Tounsi
Muzamal Hussain
Publication date
22-09-2022
Publisher
Springer Berlin Heidelberg
Published in
Arabian Journal for Science and Engineering / Issue 10/2022
Print ISSN: 2193-567X
Electronic ISSN: 2191-4281
DOI
https://doi.org/10.1007/s13369-022-07203-8

Other articles of this Issue 10/2022

Arabian Journal for Science and Engineering 10/2022 Go to the issue

Research Article-Civil Engineering

Comparing Machine Learning Models with Witczak NCHRP 1-40D Model for Hot-Mix Asphalt Dynamic Modulus Prediction

Research Article-Civil Engineering

Experimental Study on the Interaction Between the Reservoir and Tunnel During the Construction and Operation Period

Research Article-Civil Engineering

Correlating Reactivity of Fly Ash with Mechanical Strength of the Resultant Geopolymer

Research Article-Civil Engineering

Dynamic Performance of a Remaining RC Frame with a Central-Column Failure Subjected to Impact Loads

Research Article-Civil Engineering

Limestone Dust Variability Characterization and its Influence on the Properties of Self-Compacting Concrete and Pinhole Formation

Research Article-Civil Engineering

Construction of Multiple Intersections of Tunnel Structures in Limestone and Mudstone Sections: A Case Study

Premium Partners

    Image Credits