nemesis is an experimental finite element code. nemesis consists of two parts: a C++ core, embedding the Python interpreter, capable of undertaking a wide variety of static/transient/eigenvalue problems accounting for material and/or geometrical nonlinearities, and extras, a set of Python scripts that access the core and exploit usability in simple or more complicated tasks, including pre- and post-processing. Some of the available features in nemesis are: bar/beam/triangle/quad/brick elements, uniaxial elastic/hardening/cyclic/viscoplastic materials, von Mises/Mohr-Coulomb multiaxial elasto-viscoplastic materials, initial/modified/full Newton-Raphson and BFGS algorithms, load/displacement/arc-lenght controls and connection to sql databases.
Keywords for this software
References in zbMATH (referenced in 2 articles )
Showing results 1 to 2 of 2.
- Karaoulanis, Fotios E.: Implicit numerical integration of nonsmooth multisurface yield criteria in the principal stress space (2013)
- Panagiotopoulos, Christos G.; Manolis, G.D.: Velocity-based reciprocal theorems in elastodynamics and BIEM implementation issues (2010)