Thermoelasticity of Circular Cylindrical Shells Laminated of Bimodulus Composite Materials.

Abstract

Closed-form and finite-element solutions are presented for the thermoelastic behavior of laminated composite shells. The material of each layer is assumed to be thermoelastically orthotropic and bimodular, i.e., having different properties depending upon whether the fiber-direction normal strain is tensile or compressive. The formulations are based on the thermoelastic generalization of Dong and Tso's laminated shell theory, which includes thickness shear deformations. The finite element used here has five degrees of freedom per node (three displacements and two bending slopes). Numerical results are presented for deflections and the positions of the neutral surfaces associated with bending along both coordinate directions. The closed-form and finite-element results are found to be in good agreement. (Author)

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Document Details

Document Type
Technical Report
Publication Date
Jul 01, 1980
Accession Number
ADA087429

Entities

People

  • C. W. Bert
  • Junuthula N. Reddy
  • Y. S. Hsu

Organizations

  • University of Oklahoma

Tags

Communities of Interest

  • Air Platforms
  • Space

DTIC Thesaurus Topics

  • Aspect Ratio
  • Composite Materials
  • Elastic Properties
  • Engineering
  • Equations
  • Fiber Reinforced Composites
  • Geometry
  • Laminates
  • Materials
  • Mechanics
  • Micromechanics
  • Modulus Of Elasticity
  • Shear Modulus
  • Stiffness
  • Stresses
  • Structural Mechanics
  • Thermal Expansion

Readers

  • Control Systems Engineering.
  • Finite Element Method (FEM) for solving Partial Differential Equations (PDEs)
  • Structural Health Monitoring of Composite Structures.