Finite Element Analysis of a Composite Cylindrical Shell with a Cutout Under Fatigue Loading
Abstract
A higher-order shell theory is used to analyze compressive and tensile loads on a graphite/epoxy laminated cylinder containing a square cutout. The Hashin failure criterion is used to determine failure in the fiber, matrix, or lamination. Once failure occurs, the appropriate stiffness terms are reduced. This failure causes a redistribution of stress, leading to further failure. In order to account for the loss of residual strength due to cyclic loading, the stiffness matrix is further reduced at each new increment of load or displacement. The objective is not to determine the S-N curve for the material, but rather to determine the damage, displacement, and stress distribution in a complex configuration under fatigue loading using a progressive failure and stiffness reduction approach. The failure progression for static loads is determined and used as an indicator for the cyclic loads. It is shown that as the stiffness decreases, the global displacements increase, resulting in more failure until the entire panel fails.
Document Details
- Document Type
- Technical Report
- Publication Date
- Mar 01, 2000
- Accession Number
- ADA380342
Entities
People
- Joshua T. Boatwright
Organizations
- Air Force Institute of Technology