Best Finite Element Analysis (FEA) Software for Windows - Page 2

With CalculiX finite element models can be built, calculated, and post-processed. The pre-and post-processor is an interactive 3D tool using the OpenGL API. The solver is able to do linear and non-linear calculations. Static, dynamic, and thermal solutions are available. Because the solver makes use of the abaqus input format it is possible to use commercial pre-processors as well. In turn the pre-processor can write mesh-related data for nastran, abaqus, ansys, code-aster, and for the free-cfd codes dolfyn, duns, ISAAC and OpenFOAM. A simple step reader is included. In addition, external CAD interfaces are available. The program is designed to run on Unix platforms like Linux and Irix computers but also on MS Windows.

Material usage optimization has become the cornerstone of the transformation that the industry is currently experiencing. Manufacturers relentlessly pursue lightweight and robust components to deliver cost-efficient production with lower warranties, minimal recall costs, and accelerated timelines. Advanced finite element analysis is a staple in design stress calculations. Many companies still rely on manual stress point selection for spreadsheet analysis to conduct fatigue analysis. This approach is time-consuming and unreliable because it increases the risk of overlooking critical failure locations. fe-safe is the technical leader in fatigue analysis software for finite element models. fe-safe has set the benchmark for fatigue analysis software since the early 1990s in close collaboration with the industry. The fe-safe software suite is a world-leading technology for durability analysis from FEA. It directly interfaces with all major FEA suites.

SDC Verifier is an all-in-one software solution for structural design, FEA analysis, and verification according to design codes and standards. SDC Verifier can be used independently or as an extension to Ansys Mechanical, Femap, and Simcenter 3D.

Thousands of professionals leverage VisualAnalysis (VA) to meet deadlines. Customers say it is "a great value" and "so easy to learn". You need practical tools; easy on your budget. 3D models of complete buildings, tanks, towers, etc. Static and dynamic response analysis. Design code checks for steel, wood, concrete, cold-formed steel, and aluminum. Complete analysis and design features including automatic plate meshing, command window, nonlinear elements, and dynamic time history analysis. 3D static and dynamic FEA for civil, mechanical, aerospace or any other structural analysis. Optional support of building code load combinations. Easily apply loads. Distribute area loads to members. Gravity and lateral loading in the same project. Create frame, truss, or FEA models of just about any structure. Sketch, generate, and import CAD, or BIM (Revit). Fast static, P-delta, AISC Direct, dynamic, and nonlinear. Proven and validated results.

DIGIMU® generates digital polycrystalline microstructures representative of the material's heterogeneities (compliance with the topological characteristics of the microstructure). The boundary conditions applied to the REV are representative of that experienced by a material point at the macroscopic scale (thermomechanical cycle of the considered point). Based on a Finite Elements formulation, the various physical phenomena involved during metal forming processes are simulated (recrystallization, grain growth, Zener pinning due to second phase particles, etc.). In order to improve digital precision and to reduce computation times, the software is capable of providing a precise description of the interfaces (grain boundaries) while using an appropriate number of elements thanks to a fully automated anisotropic meshing and remeshing adaptation technology.

The tools of cold forming undergo strong mechanical and tribological stresses during their life cycle. These can lead in certains cases of damaged premature tools. The tools represent an important part of the manufacturing cost of a part; thus it is essential to anticipate well these problems during the designs. COLDFORM® allows you to analyze mechanical die strength in order to extend their service life. The software can compute stress distribution within the die, along with deformations, wear, temperatures and damage at any time during the process. COLDFORM® can carry out rapid analyzes which consist in applying stresses obtained during the forming process computation, to the tools. Moreover, COLDFORM® is capable of performing coupled part/tool computations, giving extremely precise results. Thanks to the functionalities dedicated to pre-stressed dies, it is possible to accurately determine the value of the necessary pre-stressing of the interference fit of the tools.

CAD-embedded finite element analysis software. Use a wider variety of study types and materials in your analysis. Inventor® Nastran® delivers finite element analysis (FEA) tools for engineers and analysts. Simulation covers multiple analysis types, such as linear and nonlinear stress, dynamics, and heat transfer. Inventor Nastran is available only in the Product Design & Manufacturing Collection. The Product Design & Manufacturing Collection delivers tools that work right inside Inventor—including advanced simulation, 5-axis CAM, and nesting, plus AutoCAD and Fusion 360.

Thermal Desktop includes all aspects of model creation. Built-in finite difference, finite element, and lumped capacitance objects can be combined in any configuration. Thermal-specific objects such as contact conductance, insulation, heat loads, and heaters can be added to model anything from automotive components to manned spacecraft. Thermal Desktop provides full parameterization using variables and arbitrarily complex expressions as input rather than hardwired numbers. These variables, called symbols, allow models to be rapidly manipulated with a few keystrokes, meaning updating or maintaining the model is easy, as is performing sensitivity studies and investigating what-if scenarios. This also provides access to SINDA/FLUINT’s optimization and reliability modules and automatic model correlation.