Vibration and buckling behaviours of thin-walled composite and functionally graded sandwich I-beams Academic Article uri icon

abstract

  • © 2019 Elsevier Ltd The paper proposes a Ritz-type solution for free vibration and buckling analysis thin-walled composite and functionally graded sandwich I-beams. The variation of material through the thickness of functionally graded beams follows the power-law distribution. The displacement field is based on the first-order shear deformation theory, which can reduce to non-shear deformable one. The governing equations of motion are derived from Lagrange's equations. Ritz method is used to obtain the natural frequencies and critical buckling loads of thin-walled beams for both non-shear deformable and shear deformable theory. Numerical results are compared to those from previous works and investigate the effects of fiber angle, material distribution, span-to-height's ratio, and shear deformation on the critical buckling loads and natural frequencies of thin-walled I-beams for various boundary conditions.

authors

  • Nguyen, ND
  • Nguyen, TK
  • Vo, Thuc
  • Nguyen, TN
  • Lee, S

publication date

  • 2019

has subject area