This latest release, Version 10.1 helps users visualize FEA models easily with enhanced grouping and entity display capabilities. It also improves modeling and analysis workflows through tighter integration with NX Nastran. Femap version 10.1 is the latest release of the robust finite element modeling pre- and postprocessor finite element application known for its tight integration with the Nastran solver. Femap with NX Nastran, an extensive and reputable industry standard CAE modeler and solver, is a part of the Siemens PLM Software Velocity Series. Femap v10.1 extends a more than 20 year history of productivity and functionality improvements in FEA modeling and postprocessing for engineers.
As an engineer, you should demand software that is not only cost effective and easy to use, but with the power to model the toughest problem. Femap delivers just that - affordable high performance FEA modeling for the engineering desktop. Femap is recognized as the world's leading CAD-independent Windows-native pre- and post- processor for advanced engineering finite element analysis.
Femap provides comprehensive functionality in an independent environment for modeling, simulation and review of product performance results.
Geometry creation: Boolean and extrude/revolve solid modeling; mid-surface extraction; project curves onto surfaces; intersect surfaces to create curves; define regions by projecting curves on solid; create curves based on U-V space on surfaces; shell solids with constant thickness; rule, revolve, extrude and loft surfaces; stitch surfaces into solids; create points, lines, arcs, circles and splines;. break, trim, extend, join, fillet, offset and copy geometric entities.
Import or export: DXF and IGES points and curves, stereolithography (SLA) data, ACIS (.sat) Parasolid (.x_t) parts or assemblies. CATIA import model files, and Express files from CATEXP. (CATIA v4.1.x, v4.2, or v5) , VDA Import (up to v2.0), I-deas import (MS8), Pro/E import.(v16 to v20), Solid Edge import, Unigraphics NX import.( v11 through NX v4).
Meshing: Global and local controls with default sizing. Define element size or spacing with bias. Free surface meshing, quads or triangles only. Mapped meshing with quads or bricks. Direct generation of line, shell and solid elements. Extrude and revolve geometric curves or line elements into shell elements, shell elements can be extruded or revolved to form solid elements. Connected shell elements can be extruded normal to themselves to turn thin-shell models into solid ones. Mesh refinement and smoothing. Subdivision and semi-automatic meshing of solids, Automatic solid meshing with tetrahedral elements.
Materials: Isotropic, orthotropic and anisotropic. Nonlinear elastic, bi-linear and plastic. Hardening: isotropic or kinematic. Hyperelasticity, creep and composites. Temperature and strain rate dependence. User extensible library included.
Loads and constraints: Geometry or finite element based. Associativity between geometry and mesh. Load case definition and management. Fixed (non-zero) displacements and rotations. Multipoint constraint equations (MPCs). Nodal forces and moments. Distributed loads on line elements. Constant or variable pressure. Velocities and accelerations. Transient dynamic, frequency and random vibration. Temperatures, heat generation or flux. Convection and radiation.
User interface: Native Windows look and feel. Multiple graphics windows. Multiple model interface. Full, multi-level undo/redo. On-line help with hypertext links. Floating dockable toolbars to access frequently used commands. Toolbar entity editor. Model info tree and entity editor. Data manipulation through the data table. Cut and paste images into Windows applications. Dynamic highlight during selection operations. Box, circle, polygon, front, depth and query picking of geometric and FEA entities. Select entities by associativity (all elements connected to specified nodes, all elements of a specified property).
Element library: 1-D: rod, tube, bar, beam, spring, gap. Full support of arbitrary and standard cross-sections including all property calculations. 2-D planar solid. 3-D surface or solid. Planar and surface: quads and triangles. 3-D solid: tetra, wedge and brick. All 2- and 3-D elements: linear or parabolic. 2-D planar: plane strain or stress, axisymmetric. 3-D surface: shear panel or membrane. Mass and general stiffness matrices. Contact lines and surfaces, and slide lines. Spot weld elements.
Customization: Record, edit and playback user-defined macros. Full features, object oriented, OLE/COM-based programming API, can be directly accessed from fully integrated VB compatible BASIC Scripting development environment. Neutral file: fully documented ASCII file format.
Groups and Layers: With Femap you can easily subdivide your model for visualization or post-processing purposes,.. Automatically add new entities to active or user-specified group. Group by ID, associativity, material, property, and type. Automatic group creation based on properties, materials, and geometric constraints.
Results: Deformations, animations, and vector displays. Single- and multi-load set animations. Filled color contours and criteria displays. Isosurface and cutting planes, with dynamic control. Shear and bending moment diagrams. Error estimates. Results across composite laminates. Extensive result sorting capabilities. X-Y Plots with multiple curves.
Text reports: standard and user-customized. Interactive data query with mouse. Freebody displays, including grid point force balance support for grouped entities. Import/export in comma separated tables. Internet publishing with VRML support. Save animations with AVI support.
Graphics: Dual Windows GDI (vector-based) and OpenGL graphics. 3-D dynamic pan, zoom and rotation. Hidden line and wireframe display. Free edge and free face display. Light source shading and transparency.
Femap with NX Nastran Features
Interactively supports a broad range of capabilities
The range of capabilities in the base module includes linear and statics, normal modes, buckling, basic nonlinear and heat transfer. In addition NX Nastran for Femap includes additional options for dynamics – that includes transient/dynamic, frequency/harmonic response, response spectrum, random response DDAM (Dynamic Design Analysis Method) – as well as advanced nonlinear analysis, aeroelasticity, superelements, optimization, rotor dynamics and DMAP (Direct Matrix Abstraction Program).
The Femap Flow Solver adds state-of-the-art computational fluid dynamics (CFD) analysis solutions to the Femap environment and provides fast, efficient and accurate solutions to complex CFD problems. A sophisticated algebraic multi-grid solver provides the backbone to a complete CFD capability that is able to support the simulation of both laminar and turbulent fluid flow, low speed and high speed compressible flow, forced flow, natural convection and mixed flows, all with multiple inlets, outlets and internal flow boundary conditions.