Download
DAPS4e.6 is an updated version of a Fortran code by John Renzi and William Gordon for design and analysis of monocoque and ring-stiffened circular cylindrical shells [DOI: 10.13140/RG.2.2.18176.92165]. The following failure modes are considered:
• Shell stresses and displacements at mid-bay and ring-frames.
• Axisymmetric collapse (AC).
• Elastic and Inelastic Interbay Buckling. (EIB and IIB).
• Elastic and Inelastic Monocoque Instability (EMI and IMI).
• Ring-frame stress and Elastic Instability analysis (EFI).
Solutions compare favorably with DTMB experimental results.
DAPS4e.6’s IO is managed through a Visual Basic UserForm. Pre/post processing is done using macro-enabled Excel workbooks.
The file DAPS4e.6.zip includes:
• DAPS4e.6 executable and Fortran 95 source code.
• Visual Basic UserForm and its 2022 Visual Basic project code.
• Excel workbook pre/post processors.
• Technical documentation
Features
- Isotropic or specially orthotropic skins with isotropic rings
- Ring stiffness taken into account in EIB and IIB solutions
- Reserve strength taken into account in AC solution
- Stress-Strain curve scaling and plots (up to 3)
- EMI, EGI and IGI solutions for simply supported, clamped or specific
- Mode shape plots for EIB, IIB, EMI, EGI and IGI
- Initial imperfection sensitivity analysis of EIB, IIB, EMI, EGI and IGI
- Equilibrium path trend plots (Koiter Theory) for EGI and IGI
- Design options minimize overall weight with geometric constraints
- User defined Safety factor for each failure mode
- End-bay design (AC)
- User guidance and examples
- IO error checking
