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From CAD conception to import and repair to post-processing, STAR-CCM+ is rapidly becoming the code of choice for external aerodynamicists: of planes, trains, and automobiles or oilrigs, ships and buildings. A combination of features, many unique to STAR-CCM , makes it a complete toolkit for the CFD aerodynamicist.
These include an automatic process from geometry to high quality hexahedral or polyhedral mesh, robust and accurate solvers (implicit algebraic-multigrid and explicit multistage Runge-Kutta coupled solvers and a segregated solver), custom-made pre- and post-processing for external aerodynamics and unrivaled efficiency in handling calculations involving hundreds of millions of cells. |
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STAR-CD V4.02 provides direct access to the latest automatic surface cleaning and mesh generation technology from within the pro-STAR environment. This technology, pioneered in sister code STAR-CCM+, has proved exceptionally popular with users and in many cases reduced the time-to-mesh from days to hours.
“Our polyhedral mesh technology is now even more powerful”, says Director of STAR-CD Development Dr Riaz Sanatian. “The combination of high quality automatic polyhedral mesh generation and efficient solver technology will provide you with improved ease-of-use, faster turnaround times and increased solution accuracy, for all classes of flow, in all application areas.”
STAR-CD V4.02 also pushes back the boundaries of CFD by introducing a number of key multi-physics capabilities, available for the first time in a general purpose CFD code. STAR-CD 4.02 is able to simulate problems involving solid stress and melting or solidification.
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Model-Based Design
Designers of embedded control system software face difficult challenges. In addition to the need to complete projects at low cost and within tight schedules, embedded control system software designers must provide predictable performance and competitive features for the products they deliver. Traditional methods of designing, testing, and implementing embedded control systems cause designers to wait until late in the design effort, when actual or prototype products and real-time embedded targets become available, to find out if software really works as it was intended to. Only then, as system integration occurs, can the designer uncover the errors that may have found their way into the product during the early design stages.
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Adams is a family of interactive motion manufacturer of simulation software. A core package (Adams/View, Adams/Solver, and Adams/PostProcessor) allows you to import geometry from most major CAD systems or to build a solid model of the mechanical system from scratch. A full library of joints and constraints is available for creating articulated mechanisms. Once the virtual prototype is complete, Adams checks the model and then runs simultaneous equations for kinematic, static, quasi-static, and dynamic simulations. Results are viewable as graph, data plots, reports, or colorful animations that you easily can share with others. You can use the results (loads created from different types of motion) of Adams simulation studies to provide loads for many different FEA programs including Nastran to optimize the structure of a design.
You can start with the Adams basic package and from there choose from a wide range of extension modules, including Adams/Control to analyze control systems, such as hydraulics, electronics, pneumatics, and more; Adams/Flex to examine the impact of flexible parts; Adams/Linear to calculate natural frequencies and mode shapes of large systems. Adams also offers a range of modules tailored specifically the automotive, aerospace, and rail industries. These modules include templates for building simulation design. Several CAD interface modules allow you to explore the motion of CAD designs without having to leave a familiar CAD interface or transfer data into Adams.
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SimMechanics 2.7
Model and simulate mechanical systems
SimMechanics extends Simulink with tools for modeling and simulating mechanical systems. It is integrated with MathWorks control design and code generation products, enabling you to design controllers and test them in real time with the model of the mechanical system.
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Moldflow's Design Analysis Solutions are the world's most widely used, technically advanced professional software products in the plastics injection molding industry. Thousands of companies worldwide have performed millions of analyses using Moldflow Design Analysis Solutions, which include Moldflow Plastics Advisers® (MPA®) and Moldflow Plastics Insight® (MPI®). Overall, Moldflow products can be used to simulate the broadest range of injection molding processes to predict and avoid potential manufacturing defects, and they are supported by the industry's largest and most knowledgeable team of plastics professionals in 14 countries worldwide.
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Speed the process for complex mold design
thinkdesign provides powerful tools for mold making applications. thinkdesign can create cores and cavities of varying complexity. Look into solutions that help both the product designer and skilled mold maker dramatically reduce the time required for complex mold design.
In these injection cast demonstrations, you will get a firsthand look at the powerful tools within thinkdesign for mold making applications. With thinkdesign, you can create cores and cavities of varying complexity. And you will see the K-MOLD plug-in in action. Adding K-MOLD helps simplify the creation of the mold base and helps you analyze a part before you create the mold.
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Advanced Magnetic Field Design Suite ADS0200
The Advanced Magnetic Field Design Suite handles nonlinear materials and permanent magnets. It calculates magnetic field distributions, inductance and forces. The Advanced Magnetic Field Design Suite gives you full 3D magnetostatic capabilities. The package includes Mesh 6.0 (universal 2D mesh professional generator), PerMag 6.0, Geometer 2.5 (interactive environment for solid geometry) and MetaMesh (universal 3D mesh generator), and Magnum 2.5 at no charge. Magnum is the complete tool for 3D finite-element magnetostatic calculations. The program achieves unprecedented accuracy and speed. Magnum can perform three typed of calculations: 1) free-space fields in unbounded volumes for given applied currents, 2) bounded fields in the presence of coils, permanent magnets and saturable isotropic ferromagnetic materials and 3) pulsed fields in regions with ideal conductors. |
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| Xenos (X-ray/electron numerical optimization suite) is a suite of advanced 2D/3D finite-element programs that handles everything you want to know about X-rays and electrons. Component programs calculate electric fields, magnetic fields, charged-particle dynamics, electron-photon-positron transport in materials and thermal transport. The diagram on the right shows how the programs communicate to form an integrated package. The system geometry is defined in the interactive graphical environment of Geometer. MetaMesh uses the information to create conformal meshes of hexahedron elements for the solution programs. The same or different meshes may be used to define 1) electrodes and dielectrics for electrical field calculations (HiPhi), 2) coils, iron and permanent magnets for magnetic field calculations (Magnum), 3) elements and compounds for Monte Carlo radiation transport (GamBet) and 4) solid materials for thermal transport (HeatWave). Xenos includes a parallel set of programs for 2D calculations. There are several pathways for interactions between the 2D and 3D programs. The Xenos software suite has unprecedented power to model X-rays, electrons and their interactions. Components function as coupled or stand-alone applications for electric and magnetic field calculations, electron beam design, Monte Carlo modeling of radiation transport and thermal analysis. No other software compares for advanced features, accuracy, speed and price. |
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"Highly recommended" by Cadalyst Magazine, thinkdesign® streamlines product development for small to mid-sized manufacturers (SMMs). Unlike other MCAD products, thinkdesign has been designed from the ground up. Working closely with our customers we've developed%u2014in a single package%u2014the efficiency of 2D AND the power and precision of 3D. With think3 technology users can easily switch to 3D, without losing even one hour of work! Compare our features and benefits. thinkdesign capabilities include:
2D/3D transparency in a single design environment. Unsurpassed interoperability between the two eliminates costly interfaces
thinkPLM foundation. Seamless integration with thinkPLM, our scalable, ready-to-use PLM solution
Advanced AutoCAD compatibility. Users can import 2D AutoCAD drawings into thinkdesign, modify and reuse those drawings as if they were native
Robust part modeling, advanced design tools and UI. Users can design any conceivable part in a single, easy-to-use design environment. Drawings can be created automatically from 3D models
Design flexibility for manufacturable sheet metal parts. Sheet Metal parts can be created from scratch or from existing parts, including IGES and STEP
Smart objects. Store engineering knowledge into the system, for faster adoption and higher quality in 3D modeling
Advanced large assembly capabilities. Users quickly navigate with Light Representations of components and Visual Bookmarks; Symbolic References enable any replacement of components, preserving assembly integrity
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CELSIUS Features:
- Easily assign boundary conditions such as temperature, heat flux, temperature gradient, convective and radiative heat exchange
- Assign heat sources in the form of volume heat and surface heat
- Material table stores thermal conductivity, specific heat, mass density or absorption and scattering coefficients |
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S3D Modeling™ software product is a unique scientific tool for 3-dimentional modeling of structure of granular materials and substances.
This product is using Granular Media theory, 3D analytical geometry and advanced method such as Distinct Element Method, Arbitrary dimensional convex hull model, Voronoi diagrams / Delaunay triangulations to create and study models of structures made up by filling rigid container of arbitrary shape or allocated space with multi-phase sphere-polyhedron particles with various micro and macro properties.
S3D Modeling™ provides comprehensive visual and quantitative analysis of wide range of characteristics of the structures such as spatial density and porosity, including their spatial distribution, grain and pore structure and more. |
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WITNESS, the world's leading business simulation system, gives you the power and flexibility to model your working environment, simulate the implications of different business decisions and understand any process, however complex. As a result, you can always be confident that you have found the best business solution for your organization-before making a financial commitment to change.
Designed with simplicity in mind, some of the keys to its success are:
Simple and powerful building block design
Modular and hierarchical structure
Easy to use standard Windows PC implementation
Extremely interactive
Powerful range of logic and control options
Elements for discrete manufacture, process industries, BPR, e-commerce, call centers, health, finance and government
Comprehensive statistical input and reports
Quality graphical professional displays
Great linkage-databases (ORACLE, SQL Server, Access, etc), direct spreadsheet links in/out, XML save formats, HTML reports, links from partner BPM and CAD applications, and more |
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ANSYS ICEM CFD CAD Integration
ICEM CFD's Direct CAD Professional interfaces link the parametric geometry creation tools from major CAD systems directly with the mesh generation, mesh optimization, and post-processing modules available in ANSYS ICEM CFD. The direct cad intefaces provide higher quality geometry for mesh generation. They also are parametric enabling the user to update the Mesh when the geometry parameters change.
Common CAD interface licensing and development means that you can use you interface with any of the ANSYS tools such as Design Modeler, Simulation or CFX.
CATIA V4 Interface
Pro/ENGINEER Interface
SDRC I-DEAS Interface
SolidWorks Interface
Unigraphics Interface |
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All COMSOL Multiphysics modeling capabilities are available through COMSOL Script. It lets you interact with models through an interactive graphical user interface, the COMSOL Desktop, for just about any analysis purpose you can think of.
COMSOL Script includes more than 600 high-level commands for data analysis and visualization. Simply save a COMSOL Multiphysics model as a Model M-file and then extend your simulating and analysis. Tailor-make your modeling through building customized user interfaces for others to access your modeling work.
Further, its command formats are MATLAB compatible; any script can be run from MATLAB for cross-disciplinary applications such as automatic control design.
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The AC/DC Module sets the stage for modeling the performance of supplier of capacitors, inductors, motors, and microsensors. Although these devices are principally characterized by electromagnetics, they are also affected by other types of physics. Thermal effects, for instance, can change electrical properties of materials, while electromechanical deflections and vibrations in industrial generators need to be fully understood during any design process.
The capabilities of the AC/DC Module span electrostatics, magnetostatics, and electromagnetic quasi-statics with unlimited couplings to other physics.
When considering your electrical components as part of a larger system, the AC/DC Module provides an interface with SPICE circuit lists where you choose circuit elements for further 2D or 3D FEA modeling. Then you can take your analysis beyond the conventional by running a single simulation of a mixed system of lumped and high-fidelity models.
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| The professional software suite delivers accurate, robust, high performance solutions for challenging non-linear problems, large professional scale linear dynamics applications, and routine design simulations. Its unmatched integration of implicit and explicit FEA capabilities enables you to use the results of one simulation directly in a subsequent analysis to capture the effects of prior history, such as manufacturing processes on product performance. |
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| The Abaqus Unified FEA product suite offers powerful and complete solutions for both routine and sophisticated engineering problems covering a vast spectrum of industrial applications. In the automotive industry engineering work groups are able to consider full vehicle loads, dynamic vibration, multibody systems, impact/crash, nonlinear static, thermal coupling and acoustic-structural coupling using a common model data structure and integrated solver technology. |
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DEFORM™-F3 is an extremely capable process simulation system designed to analyze the three-dimensional (3D) flow of metal forming processes such as die forging, cold heading, upsetting and extrusion. DEFORM-F3 is a practical and efficient tool to predict the material flow in industrial forming operations without the cost and delay of shop trials.
Based on the finite element method (FEM), DEFORM has proven to be accurate and robust in industrial applications for more than two decades. The simulation engine is capable of predicting metal flow, loads and defects with astonishing precision.
The automatic mesh professional generator produces an optimized mesh system with local element size control based on the specific process being analyzed with little to no user input. FEM parameters are derived from the process details supplied by the user. Gravity-based drop positioning allows a user to easily handle ill-defined workpiece location in die forgings. |
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DEFORM™-2D is a Finite Element Method (FEM) based process simulation system designed to analyze two dimensional (2D) flow of various metal forming processes.
It provides vital information about material and thermal flow during the forming process to facilitate the design of products and required tooling. DEFORM-2D has been used by companies worldwide to analyze forging, extrusion, drawing, heading, upsetting and many other metal forming processes. |
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We place free at your disposal a multitude d´outils essential.
The tools idéals for manufacturer, office d´étude or service handling.
Example: CD-ROM with professional calculator of load according to weight of the load, angles, standard d´élingage,...
and selection of the product corresponding to your need.
This CD-ROM puts to you free with provision data D.A.O. 2D and 3D of the rings of lifting, their obstructions, CMU according to 14 d´élingage types, d application examples, vidéos, d´emploi modes, documentations,...
More than 250 various examined rings of lifting...
The integrated computation software enables you to inform & find in a d´étapes minimum the solution with your need. Intelligent! it takes into account the parameters necessary (weight, Nb points of fixing, angles of inclination,...) of your project, attachment units which you use.
More than 600 various sights of draftsmanship can be exported free in files DXF in data 2D and innovation: geometrical data 3D in format JGES.
L utilisator of software CAD can then freely import these data in his software preferred, finished waste of time & tiresome modelings! |
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Next Generation of Professional software for Image Analysis Automation
SIMAGIS® is an innovative and robust table-based image analysis software that delivers %u201CNatural Automation%u201D%u2122 for repetitive image analysis tasks. SIMAGIS® allows you to visually see every step taken in the process while delivering accurate and easily replicable results.
Using SIMAGIS® capabilities and our scientific expertise we deliver ready-to-use solutions for scientific and industrial applications in Nanotech, Material Science, Life Science and other areas. professional platform that helps complete repetitive image processing and analysis tasks by applying turn-key solutions to a once manual process of imaging data analysis.
SIMAGIS® Features and Benefits
SIMAGIS® Platform employs concept of spreadsheet application to improve research productivity and offer a variety of ready-to-use solutions for specific scientific and industrial research problems.
SIMAGIS® provides two unique fundamental advantages that set this product apart from others and put it in a class of its own.
Application Spreadsheet
Each step of the analysis process is captured in the cell which, much like conventional spreadsheet, contains input data, processing functions and results of the operation.
Each cell may reference result from other cells for input data and create dynamic sequences. This way the analysis is presented as visual sequence or processing steps with visible interim results with easily adjustable functional parameters for each step.
This unique feature advances iterative process of selecting the best image processing parameters and significantly improves research productivity.
Another important benefit is that such visual professional control of interim results simplifies parameter customization for different sets of imaging data.
Executable Applications
Once analysis steps are captured, an Application Spreadsheet of any complexity can be saved and executed again with the ability to adjust parameters for every step.
This means that the executable module is created as a natural result of the research process without the need for coding, the knowledge of macro language and additional time. Changing data in one cell will result in recalculation of the analysis sequence, so saved Application Spreadsheets create a library of customizable solutions. Application Spreadsheets can be executed automatically with different sets of imaging data by anyone with or without research expertise.
This unique feature allows for documenting research work as well as retaining and sharing knowledge across the organization.
Other Features
The SIMAGIS® product includes many advanced features that match, and in many professional cases, exceed the functionality of leading image analysis software products on the market.
Our Functional Library contains almost 200 functions for professional image analysis, including objects and professional structures development, arithmetic operations, measuring (global parameters, particles parameters, special measurements), morphological operations, particle professional filters, statistical analysis and many others.
The product is compatible with digital image formats, such as digital photo and video industrial cameras, industrial microscopes, professional scanners and most popular image editing software.
Other features include custom programming in Java for creating new functions; automated creation of reports such as tables, graphs and distribution histograms; web publishing.
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Using patented technology, SYNCROSCOPY image capture, databasing and digital microscopy products overcome the most significant limitations of using a light microscopy including limited depth of field, restricted field of view and insufficient dynamic range.
All our products are designed to work with your microscope. They are easy to use and provide the most advanced and innovative features available today.
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COMSOL Multiphysics is a modeling package for the simulation of any physical process you can describe with partial differential equations (PDEs). It features state-of-the-art solvers that address complex problems quickly and accurately, while its intuitive structure is designed to provide ease of use and flexibility.
You can easily model most phenomena through predefined modeling templates. Modifying these to specific applications is possible through equation-based modeling capabilities.
To deal with the increasing demand for realistic representations of the world around us, you can easily model systems of coupled physics phenomena. COMSOL Multiphysics provides a friendly, fast and versatile environment for multiphysics modeling.
Fast results and unprecedented flexibility make COMSOL Multiphysics the ideal modeling and simulation software for research, product development, and education.
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ANSYS ICEM CFD MED
ANSYS ICEM CFD has a Modular Philosophy. There are moduals for each of our mesh professional generators and for post processing. There central modual that ties these all together is "MED" and it is included with any of the other moduals. Originally, MED was an acronym for "Mesh EDitor", but after a decade of development, it now includes translators, geometry creation and editing tools, Mesh Diagnostic and Mesh edting tools, scripting tools, and output professional interfaces and Post Processing.
With hundreds of solvers being used for CFD and FEA, the philosophy behind ANSYS ICEM CFD's integrated structure is to provide the user with a single environment ideally suited for all grid generation requirements. The ANSYS ICEM CFD Mesh Editor (MED) is just that, all wrapped up in a nice, easy-to-use, modern interface.
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ANSYS ICEM CFD Mesh Generation
ICEM CFD Engineering develops mesh generation tools for all areas of analysis that require a computational domain. Primarily focused on Computational Fluid Dynamics (CFD) mesh generation, our tools can also be used for Finite Element Analysis (FEA) and Electromagnetics (EMAG).
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For Professional pcs with Microsoft WindowsTM
consists of the 4 programs:
WinLensTM
Tolerancer
Glass Manager
Material Editor
In addition to the software package G302010000, the following programs are available free of charge:
WinLensTM 4.3
PreDesigner
Lens Library |
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