1. Classical nonlinear theories of elasticity of plates and shells; 2. Classical nonlinear theories of doubly curved shells; 3. Composite, sandwich, and functionally graded materials; 4. Nonlinear shell theory with thickness deformation; 5. Hyperelasticity of soft biological and rubber materials; 6. Nonlinear dynamics; 7. Viscoelasticity and damping; 8. Vibrations of rectangular plates; 9. Nonlinear stability and vibration of FGM rectangular plates under static and dynamic loads; 10. Nonlinear static and dynamic response of rectangular plates in rubber and biomaterial; 11. Vibrations of isotropic and laminated composite circular cylindrical shells; 12. Effect of boundary conditions on nonlinear vibrations of circular cylindrical shells; 13. Nonlinear static and dynamic response of a blood-filled and pressurized human aorta; 14. Nonlinear vibrations and stability of doubly curved shallow shells; 15. Nonlinear stability of circular cylindrical shells under static and dynamic axial loads.