A Ritz-type solution for free vibration and buckling analysis of functionally graded beams under hygro-thermal environment

被引：0

作者：

Nguyen, Thien-Nhan ^{[1
]}

Nguyen, Ngoc-Duong ^{[2
,3
]}

机构：

[1] Kien Giang Univ, Fac Engn, 320A Route 61, Vinh Hoa Hiep, Kien Giang Prov, Vietnam

[2] Ho Chi Minh City Univ Technol & Educ, Fac Civil Engn, 1 Vo Van Ngan St, Thu Duc City, Vietnam

[3] Ho Chi Minh City Univ Technol & Educ, Fac Civil Engn, 1 Vo Van Ngan St, Ho Chi Minh City, Vietnam

来源：

STRUCTURES | 2025年 / 73卷

关键词：

Vibration; Buckling; Hygro-thermal load; Chebyshev function; Ritz method; Functionally graded beam; THERMOMECHANICAL ANALYSIS; LAMINATED COMPOSITE; SANDWICH PLATES; BOUNDARY-CONDITIONS; STABILITY ANALYSIS; THERMAL-STABILITY; FGM BEAMS; BEHAVIORS; KANTOROVICH; NANOBEAMS;

D O I：

10.1016/j.istruc.2025.108392

中图分类号：

TU [建筑科学];

学科分类号：

0813 ;

摘要：

Thermal and moisture environments are prevalent in engineering applications. This paper introduces a Ritz-type solution based on the Chebyshev polynomials to investigate the effect of hygro-thermal conditions on the buckling and free vibration behaviours of functionally graded beams. A power-law distribution describes the smooth and continuous variation of material compositions across the beam thickness. Three types of functionally graded beams, including Silicon Nitride-Stainless Steel (Si3N4/SUS304), Alumina-Stainless Steel (Al2O3/ SUS304), and Zirconia-Stainless Steel (ZrO2/SUS304), are considered. The temperature and moisture profiles are examined under uniform, linear, and nonlinear scenarios. The beam displacement is based on Reddy's higher- order beam theory. The Lagrange equation is used to derive the governing equation. The Ritz method based on Chebyshev functions is developed to analyse functionally graded beams' buckling and free vibration responses. The influences of temperature and moisture variations, slenderness ratio, boundary condition, and material parameters on beams' critical buckling temperature and natural frequency are studied. The accuracy and effectiveness of the presented method are verified by comparing it with previous research.

引用

页数：17

共 83 条

[11] Pahlavanzadeh M., Mohammadimehr M., Irani-Rahaghi M., Emamat S.M., Vibration response on the rod of vortex bladeless wind power generator for a sandwich beam with various face sheets and cores based on different boundary conditions, Mech Based Des Struct Mach, pp. 1-27, (2024)
[12] Monajemi A.A., Mohammadimehr M., Bargozini F., Dynamic analysis of a spinning visco-elastic FG graphene platelets reinforced nanocomposite sandwich cylindrical shell with MRE core, Acta Mech, 235, 12, pp. 7497-7530, (2024)
[13] Mohammadimehr M., The effect of a nonlocal stress-strain elasticity theory on the vibration analysis of Timoshenko sandwich beam theory, Adv Nano Res, 17, 3, pp. 275-284, (2024)
[14] Kolooli Mogehi M., Mohammadimehr M., Dinh Duc N., Vibration analysis of a sandwich Timoshenko beam reinforced by GOAM/CNT with various boundary conditions using VIM, Mater Sci Eng: B, 304, (2024)
[15] Arabzadeh-Ziari M., Mohammadimehr M., Arabzadeh-Ziari E., Asgari M., Deflection, buckling and vibration analyses for a sandwich nanocomposite structure with foam core reinforced with GPLs and SMAs based on TSDBT, J Comput Appl Mech, 55, 2, pp. 289-321, (2024)
[16] Arabzadeh-Ziari E., Mohammadimehr M., Arabzadeh-Ziari M., Asgari M., Vibration, bending, and buckling of a seven-layer sandwich beam with balsa core reinforced by nanocomposite and shape memory alloy face sheets using piezoelectromagnetic layers, Arab J Sci Eng, (2024)
[17] Rostami R., Mohammadimehr M., Vibration control of rotating sandwich cylindrical shell-reinforced nanocomposite face sheet and porous core integrated with functionally graded magneto-electro-elastic layers, Eng Comput, 38, 1, pp. 87-100, (2022)
[18] Nejadi M.M., Mohammadimehr M., Mehrabi M., Free vibration and stability analysis of sandwich pipe by considering porosity and graphene platelet effects on conveying fluid flow, Alex Eng J, 60, 1, pp. 1945-1954, (2021)
[19] Garg A., Chalak H.D., A review on analysis of laminated composite and sandwich structures under hygrothermal conditions, Thin-Walled Struct, 142, pp. 205-226, (2019)
[20] Tounsi A., Bousahla A.A., Tahir S.I., Mostefa A.H., Bourada F., Al-Osta M.A., Tounsi A., Influences of different boundary conditions and hygro-thermal environment on the free vibration responses of fgm sandwich plates resting on viscoelastic foundation, Int J Struct Stab Dyn, 24, (2024)

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