CAE FEA Page 148

SIMPACK is a general Multi-Body Simulation Software which is used to aid engineers in the analysis and design of mechanical and mechatronic systems. From initial concept designs through to production and redesigns, SIMPACK is used to help engineers fully comprehend and optimize systems, vastly reduce the need for physical prototyping, reduce time-to-market, and improve product quality and lifespan. In essence, SIMPACK enables manufacturers to gain a competitive edge by offering the ability create high quality products in a time- and materially-efficient manner, thus reducing overall design, production and maintenance costs.Product:SIMPACK 9.2 for win32_win64 Lanaguage:english Platform:WIN32&WIN64 Size:1CD

AVL Suite 2013 (Workspace Suite 2013.1 + FIRE 2013.1) (x64/x86) by SolidSQUAD | 7.6 GB AVL Powertrain Engineering is your competent partner for development of innovative powertrain systems. From Diesel engines to Electric Drives, from Alternative Fuels to Control Software, from Transmissions to Batteries, we have been supporting the Automotive and Mobility industries for more than 60 years. Unique synergies with AVL Instrumentation & Test Systems and AVL Advanced Simulation Technologies lead to highly creative, mature and application-specific solutions for our customers to meet their future market challenges. AVL Suite is AVLs commitment to continuous integration and compatibility of AVL software tools in all testing stages along the automotive development process.AVL Solution The AVL Suite enables consistent and user-friendly execution...

Product manufacturers often struggle to understand true system performance until very late in the design process. Mechanical, electrical, and other subsystems are validated against their specific requirements within the systems engineering process, but full-system testing and validation comes late, leading to rework and design changes that are riskier and more costly than those made early on. Simulate \”Real World\” PhysicsAs the world’s most famous and widely used Multibody Dynamics (MBD) software, Adams improves engineering efficiency and reduces product development costs by enabling early system-level design validation. Engineers can evaluate and manage the complex interactions between disciplines including motion, structures, actuation, and controls to better optimize product designs for performance, safety, and comfort. Along with extensive analysis capabilities, Adams is optimized...

LVMFlow – professional solution for developers of foundry technology. Modern foundry technology now allow production of high quality castings very complex configuration, require virtually no additional treatment. However, the cost of their production remain high. The use of high technology, in particular, of computer modeling of physical and chemical processes occurring during the formation of the casting allows, on the one hand, the transition to the casting more and more complex forms, using an increasing range of alloys, on the other hand, to reduce the cost of debugging technology, replacing the natural experiment computing. Modern computer simulation program based on the physical theory of heat, diffusion, hydrodynamic, and deformation phenomena can adequately reflect the pattern of physical and chemical processes...

SimWise 4D is for design and engineering professionals developing products involving assemblies of 3D parts. By simulating your assemblies in this unique virtual environment, you will produce more creative, robust designs and reduce cycle time. With SimWise 4D, you can simulate the rigid body dynamics of an assembly, “size” components, determine part interferences and collision response, identify stresses induced by motion, produce physics-based animations, and test your control systems. A Proven Simulation ToolSimWise 4D was born when DST acquired a license from MSC Software Corporation to the MSC.visualNastran 4D (vn4D) product. The software traces its roots to the Working Model 3D product developed by Knowledge Revolution, which was acquired by MSC in 1999, extended to include FEA capabilities, and renamed...

The \’MpCCI CouplingEnvironment\’ has been developed at SCAI in order to provide an application independent interface for the coupling of different simulation codes. MpCCI CouplingEnvironment has been accepted as a ‘de-facto’ neutral standard for simulation code coupling. Typical application areas are Aeroelastic and fluid-structure interaction Thermal stress analysis in turbines Thermal management by coupling of fluid and radiation codes Magneto-hydro dynamics and heat loss calculations – coupled EMAG and CFD HVAC applications by combination 1D pipeline models with 3D CFD Vehicle dynamics using 1D multi-body systems and non-linear structural analysis Customised solutions using more than 3 or more codes in a single application Combinations of commercial codes and highly tuned inhouse codesNew Co-Simulation Features Iterative coupling schemes for FSI and...

Simufact.welding: Professional welding simulationNew Release 3.1 Nowadays industrial welding processes require a high degree of process security. The correct design of a welding procedure sheet is essential for the quality of a process, which is needed for the programming of welding robots among others. The correct application of clamping devices, the employed welding process and the energy input are added. Distortions of the final geometry must be fully controlled so that components can be serially produced with precise tolerances. Knowledge about the kind of the heat influence zone enables specialists to conclude the properties of welding seams.Features at a glance pre- and postprocessing in one GUI graphically interactive control flow for robots and clamping tools sectional view for all earnings...

RadTherm is equipped with everything but your CAD mesh: pre-processing for conductivity and mesh normals, boundary condition set up, an optimized thermal solver, and post processor / results viewer. With minimal effort you can analyze conduction, multibounce radiation, and convection (steady-state or transient) under realistic indoor or natural environments. All functions are integrated into one carefully designed graphical user interface, allowing users to analyze designs very quickly and accurately. RadTherm\’s highly-optimized algorithms handle even the most complex heat transfer questions. Written entirely in portable C++, RadTherm maintains speed and file compatibility across platforms. A state-of-the-art voxel-based ray tracer is used to compute radiation view factors and solar projected (apparent) areas. This ray tracer provides the fastest radiation exchange solver on...

HyperForm: Cost effective, Reliable, Efficient, and Complete Solution for Stamping Altair HyperForm is a comprehensive FE-based sheet metal forming simulation framework. HyperForm leverages years of Altair’s experience in manufacturing simulation and process design to help develop the optimal manufacturing process. A complete product line-up tailors any stamping simulation needs: HyperForm: Highly efficient platform for the stamping process HyperForm Solista: The Essence of Sheet Metal Forming in a Standalone Package HyperBlank: Accurate Standalone Blank Costing Analysis The unique Hyperform environment includes: Accurate blank-shape prediction and intuitive nesting interface. The fastest inverse solver for quick one-step analysis Parametric and NURBS Surface based die development tool Comprehensive interface to perform incremental analysis with auto-setup and a multi-stage managerfor hands-off job executionProduct:Altair HyperForm Solista...

CD-adapco has been actively involved with in-cylinder analysis from its inception and there are many engines in production around the world today that have benefitted from detailed analysis using STAR-CD and es-ice. These range from the smallest motorcycle through car and truck engines to the largest stationary and marine engines.Summary of STAR-CD and es-ice capabilities : to keep pace with developments in engine technology, CD-adapco is continuously developing the software to add new capabilities and functionalityDesigners of modern Internal Combustion engines face huge challenges to deliver power units which satisfy legislation and have competitive economy, performance and manufacturing cost. In particular, technology advances in fuel injection systems, alternative fuels, combustion systems, multi-fuel operation, downsizing and engine management coupled to ever...