Science and Engineering of Composite Materials (Jan 2019)

Equivalent stiffness prediction and global buckling analysis using refined analytical model of composite laminated box beam

  • Zhu Xiujie,
  • Xiong Chao,
  • Yin Junhui,
  • Yin Dejun,
  • Deng Huiyong

DOI
https://doi.org/10.1515/secm-2019-0030
Journal volume & issue
Vol. 26, no. 1
pp. 465 – 481

Abstract

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The analytical model applicable to calculate the equivalent stiffnesses of composite box beam has been refined. The calculation of equivalent stiffness coefficients of composite laminated box beam is simplified and the connection between shear-deformable beam theory and classical laminate theory is established. The equivalent stiffness analytic formulas expressed by beam cross-section geometry and laminate stiffness coefficients are obtained. These analytical formulas are suitable for composite laminated box beam with circumferential uniform stiffness, and accounts for bending- transverse shear and torsiontensile coupling effect. The correctness and precision of refined analytical model is verified by test and finite element method, respectively. The influences of the lay-ups on the elastic coupling of composite structures and their causes are studied. The variation of the equivalent stiffnesses of the laminated box beams with different lay-ups is predicted. The global buckling analysis of composite laminated box beam considering the transverse shear deformation is carried out. The formula of the global buckling critical load is obtained combining with the theoretical formulas of equivalent stiffnesses. The influences of the lay-ups, shear deformation and slenderness ratio on the global buckling critical load are studied.

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