![calcpad exception calcpad exception](https://www.dynatech.de/media/catalog/product/cache/2/image/9df78eab33525d08d6e5fb8d27136e95/i/Q/iQtjO8Zy.jpg)
![calcpad exception calcpad exception](https://c.tutti.ch/big/9471518257.jpg)
Create near perfect load balanced models without hassle for even the most complex of 3D geometries and so keep your restraints to the absolute minimum.Apply loads and moments as realistic variable pressures using either built in or user specified formulas, thus avoiding the undesirable affects of using rigid body elements to spread loads.
CALCPAD EXCEPTION FULL
Produce quality meshes with full density control within minutes.Quickly build new models from scratch with the easy to use sketcher tool.Utilize powerful geometry cleaning and editing tools to remove slivers and relax sharp corners.Import 3D faceted models via STL or VRML and reverse engineer back to geometry.Import of 3D CAD data via IGES from any source without exception.Geometry can be exported in STL or VRML format.
![calcpad exception calcpad exception](https://insmac.org/uploads/posts/2016-10/1476258797_calcpad.png)
Input data file decks can be exported for several leading analysis systems. Graphical displays can be imported into other applications via the clipboard or output in a variety of file formats. Interrogation of any entity type or result is quick and easy. Results can be displayed on specified entities as well as the whole model.
![calcpad exception calcpad exception](https://is4-ssl.mzstatic.com/image/thumb/Purple62/v4/f4/a7/58/f4a758f3-fd27-4862-fd7b-c8f325b66c7f/source/512x512bb.jpg)
Geometry can be created on a mesh and by using shape projection and face concatenation tools a geometric model can be reverse engineered from an orphan mesh. Simple analytical shapes can then be constructed and fitted to the imported mesh and used to apply loading, restraints and coordinate system transformations. Orphan meshes (nodes and elements not associated to any geometric entities) can be imported in a variety of leading solver formats. Alternatively a shell mesh of either triangular or quadrilateral elements can be extruded to create either pentahedral or hexahedral elements respectively. Tetrahedral elements are used to mesh volumes, which can be of any arbitrary shape or complexity. Hence the mesh density can be altered without having to redefine any boundary conditions. Material properties, restraints and loading conditions are assigned to the geometric entities, which are used to generate the mesh. Element formulations may be linear or parabolic. Volumes and or faces may be divided into smaller parts using either a planar, cylindrical, conical or spherical cutting shape. The same applies for three dimensional shell elements. Triangular or quadrilateral elements can be generated on two-dimensional faces with unlimited numbers of sides and voids (holes). There are no restrictions on geometric complexity. The problem type may be one involving plane stress, plane strain, axisymmetric. Powerful utilities are available to clean up and heal any problems within the CAD data. Geometry to describe a problem can be built within the program or imported from CAD systems via an IGES neutral file, a STL file (stereolithography information) or a VRML file (virtual reality modeling language). Roshaz is a complete finite element analysis suite. Export/Import capabilities to major FEA codes (Abaqus, FemDesigner, Lusas, Nastran and CalculiX). Aimed at solution of complex solids with realistic and advanced boundary condition simulations using either the integrated solver or a choice of several other well known solvers which can be run seamlessly within the program environment.