Recent Advances in Composite Materials: Presented at the 1995 Joint ASME Applied Mechanics and Materials Summer Meeting, Los Angeles, California, June 28-30, 1995Scott R. White, H. Thomas Hahn, W. F. Jones |
Contents
Finite Element Analysis of Pseudoelastic Behavior of Shape | 203 |
Development of a New Class of Swelling Type Composite | 215 |
Magnetic Field Effect on Fracture of HighTemperature | 225 |
Copyright | |
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Common terms and phrases
3-D braided aging-induced strains amplitude images analysis applied assumed autoclave average axial beam theory behavior C-scan carbon fibers carbon-carbon chemical aging compliance calibration Composite Materials constitutive equations corner region crack angle crack extension crack front crack growth creep cross-section crosslinking debond length deformation delamination front determined distribution effect elastic energy release rates ENF specimens experimental extensometer fatigue Figure finite element function glass transition temperature high-temperature incremental induction welding inelastic strain interface isotropic J/m² Lagoudas laminate loading magnetic field martensitic material properties matrix crack mechanical mode II precracked modulus moisture nonlinear obtained orthotropic parameters phase phenolic physical aging Poisson's ratio polyimide polymer predictions preform resin Shape Memory shape memory alloys shear stress shown in Fig stiffness strain energy strain energy release strength stress-strain substrate surface tensor thermal expansion Thermoplastic thickness transformation transverse viscoelastic volume fraction yarn structure