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VisionGauge® is a powerful and easy-to-use machine vision and image analysis software product that will let you capture, manipulate, analyze, store and output images and data. It can be used to:
-Carry out many different types of reliable and repeatable high-precision measurements
-Compute measurement statistics
-Count and measure discrete objects such as particles, grains and cells
-VisionGauge® visual measurement software also has an integrated report generator that you can use to quickly and easily produce illustrated inspection reports containing measured data, imported images, and data into a database. In addition, VisionGauge® has the ability to transfer measurement results to DDE enabled programs and to automatically export measurements to Microsoft's Excel.
VisionGauge® is primarily used in high-tech manufacturing industries: electronics, semiconductors, printed circuit boards, precision mechanical components and assemblies, etc... It is used for quality control, dimensional verification, documentation, training, as well as general imaging and high-precision visual measurement. Because VisionGauge® is so user-friendly, it can be used by anyone, whether they are executives or shop floor personnel.
VisionGauge® is very competitively priced and can be supplied as complete vision inspection workstations , including computer, optics, lighting, camera and positioning & focusing mechanisms, or as a board level & software product.
VisionGauge® can also be customized - quickly and cost-effectively - to meet the requirements of your specific application. |
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Extension for Turbine Engineering and Inspection :
Geomagic Blade provides specialized features for evaluating, testing and qualifying turbine blades, rotors, stators and components. As an extension to Geomagic Qualify, it enables complete surface and feature inspection for 100-percent verification and comparison with the 3D CAD model to ensure parts meet tolerance, functional and performance specifications. It also provides new digital techniques for aligning edge-to-pin contact, automatic dimensioning of blade-specific characteristics and automated twist analysis.
Purpose-built for non-contact turbine inspection :
Geomagic Blade is the only DSSP inspection software available that simplifies and automates the turbine inspection process and is the first CAI tool based on unique requirements from leading turbine-machinery companies.
When faced with the challenge of updating traditional manual processes, lengthy inspection tasks and time-bound productivity yield with modern digital shape sampling methods, companies such as Howmet Castings, a world leader in the investment casting of super alloys turn to Geomagic for inspection process improvement. Working with GE Power Systems, Honeywell, Pratt & Whitney, MTU, Howmet, Siemens, Solar Turbines and PCC Airfoils, decision-makers rely on Geomagic to assemble the turbine solution to help them meet the most stringent requirements.
Complement CMM with a Transition to DSSP-based Inspection :
First article inspection with Geomagic Qualify and Geomagic Blade saves cost, provides better inspection results and delivers higher quality with optimal efficiency. With the ability to work alongside or replace existing inspection processes to improve results, the Geomagic Blade extension shortens the time to validate mold design and inspect manufactured components.
Inspection professionals know repeatability is critically important. The Geomagic Blade extension calculates where to measure and with one click, allows you to see all dimensions of a blade. Allowing for fast measurement comparison across blades and enabling internal analysis to evaluate the parameters of critical characteristics, the Geomagic Blade extension enables better inspection thereby reducing failure rates and increasing safety.
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COSMOSWorks provides simple, accurate design analysis that leads to better products by giving designers a safety net for catching errors. Designers are free to innovate, secure in the knowledge that they won't pass costly mistakes down the line.
Complete integration with SolidWorks® 3D product design software means that COSMOSWorks users can perform design analysis, simulation and optimization directly from their SolidWorks user interface.
COSMOSWorks enables faster, less costly, and more optimized product development, as well as more in-depth examination of product performance than would ever be possible using even the most detailed prototypes.
Available in the following packages, COSMOSWorks can be expanded as your analysis needs grow and change:
Designer - Fully embedded inside the SolidWorks interface, COSMOSWorks Designer utilizes the SolidWorks FeatureManager® and many of the same mouse and keyboard commands, so anyone who can design a part in SolidWorks can analyze it without having to learn a new interface. COSMOSWorks Designer contains the most
frequently used design validation tools, offering stress, strain, and displacement analysis capabilities for both parts and assemblies at a very affordable price.
Professional - COSMOSWorks Professional offers a wide spectrum of powerful tools to help engineers who are familiar with design validation concepts to perform virtual testing and analysis of parts and assemblies. Engineers who need more specific design analysis capabilities can use COSMOSWorks Professional to predict the physical behavior of practically any part or assembly under any loading condition.
Advanced Professional Finite Element Analysis - One of the most comprehensive and sophisticated finite element analysis packages available, COSMOSWorks Advanced Professional offers seasoned analysts a tremendous range of finite element analysis capabilities at a fraction of the cost of most high-end FEA programs.
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MSC Nastran is a powerful general purpose finite element analysis solution for small to complex assemblies. A proven and standard tool in the field of structural analysis for over four decades, Nastran provides a wide range of modeling and analysis capabilities, including linear statics, displacement, strain, stress, vibration, heat transfer and more. What's more, Nastran can handle any material type from plastic and metal to composites and hyperelastic materials.
Because MSC Nastran is actually a family of tightly integrated analysis modules, you can purchase exactly what you need. You can start with a basic configuration that allows you to perform linear and buckling analysis. Later, you can add additional MSC Nastran modules for heat transfer, dynamics, spot welding, aeroelasticity, and nonlinear analysis. Modules such as MSC Nastran Design Optimization and Topology Optimization and DMAP (a toolkit for creating custom solutions that work with proprietary applications) speed work by enabling you to customize analysis routines.
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Dytran is an explicit finite element analysis (FEA) solution for analyzing complex nonlinear behavior involving permanent deformation of material properties or the interaction of fluids and structures. Dytran enables you to study the structural integrity of designs to ensure that final products stand a better chance of meeting customer safety, reliability, and regulatory requirements.
Only a multi-discipline solution offers the most accurate results. Dytran combines structural, material flow, and fluid-structure interaction (FSI) analysis in a single package. Dytran uses a combination of Lagrangian and Eularian solver technology to analyze short-duration transient events that require finer time step to ensure a more accurate solution. You can apply Dytran to problems that have a high degree of material nonlinearity (foam, rubber, and large deformations in metal), large geometry nonlinearity (buckling, crippling, and cracking), and extreme boundary nonlinearity (a structure folding over onto itself.)
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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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COSMOSWorks provides simple, accurate design analysis that leads to better products by giving designers a safety net for catching errors. Designers are free to innovate, secure in the knowledge that they won't pass costly mistakes down the line.
Complete integration with SolidWorks® 3D product design software means that COSMOSWorks users can perform design analysis, simulation and optimization directly from their SolidWorks user interface.
COSMOSWorks enables faster, less costly, and more optimized product development, as well as more in-depth examination of product performance than would ever be possible using even the most detailed prototypes.
Available in the following packages, COSMOSWorks can be expanded as your analysis needs grow and change:
Designer - Fully embedded inside the SolidWorks interface, COSMOSWorks Designer utilizes the SolidWorks FeatureManager® and many of the same mouse and keyboard commands, so anyone who can design a part in SolidWorks can analyze it without having to learn a new interface. COSMOSWorks Designer contains the most
frequently used design validation tools, offering stress, strain, and displacement analysis capabilities for both parts and assemblies at a very affordable price.
Professional - COSMOSWorks Professional offers a wide spectrum of powerful tools to help engineers who are familiar with design validation concepts to perform virtual testing and analysis of parts and assemblies. Engineers who need more specific design analysis capabilities can use COSMOSWorks Professional to predict the physical behavior of practically any part or assembly under any loading condition.
Advanced Professional Finite Element Analysis - One of the most comprehensive and sophisticated finite element analysis packages available, COSMOSWorks Advanced Professional offers seasoned analysts a tremendous range of finite element analysis capabilities at a fraction of the cost of most high-end FEA programs.
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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 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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Image Processing
Image and video processing, analysis, algorithm development, and system design:
MathWorks tools for image processing provide engineers, scientists, and researchers with an intuitive, flexible environment for solving complex imaging problems. They apply these tools in disciplines such as aerospace and defense, remote sensing, biotechnology, medical imaging, scientific imaging, and materials science.
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Next Generation of Software for Image Analysis Automation
SIMAGIS® is an innovative and robust table-based image analysis software that delivers "Natural Automation"™ 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. 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.
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 control of interim results simplifies parameter customization for different sets of imaging data. |
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| The Load Identification Analysis module calculates operational forces acting on a system in either a direct way, an inverse way or through a combination of both methods. In the direct or mount stiffness method, the load is computed by multiplying the difference in operating displacement over a mount with its dynamic stiffness. The inverse method computes the acting loads applying the principle that the operational responses are due to the acting loads. By inverting the FRF matrix between the load application points and the operational response locations, and multiplying with the operational responses, the loads are obtained. |
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eZ-Analyst
Real-Time Vibration and Acoustic
Analysis Software for the 600 Series,
WaveBook/516E, and ZonicBook/618E
eZ-Analyst software from IOtech adds real-time continuous and transient data acquisition in the Time, Frequency, or Order domain to 600 Series, ZonicBook/618E, and WaveBook/516E systems. Today’s eZ-Analyst is the compilation of over 10+ years of continuous software development and customer inputs that results in the most versatile vibration analyzer available.
Key Highlights
• Real-time FFT analysis
• Easy-to-use graphical user interface provides
fast setup
• Field expandable from 8 to 56 channels
• Supports four separate tachometer channels
• 3D Color Waterfall Spectrum Display
• Order Normalization and Order Tracked Plots
• Multiple Plot Overlays
• View all functions simultaneously in eight display windows with up to 16 data overlays in each window
• Export your data to Excel, ME Scope, SMS Star, or UFF type 58 ASCII or Binary
• Wide selection of real-time analysis features, including integration/differentiation synchronous averaging, and much more |
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SpaceClaim for the Analysis Engineer
Challenge:
- Engineers often receive large, complex models that require analysis. The analysis engineer must simplify such models to reduce the time needed to create a mesh for finite element analysis. However, the engineer does not have access to or is not an expert in the designer's CAD system and, therefore, must rely on the CAD specialists to create simplified models.
Solution:
- SpaceClaim Professional enables the analysis engineer to import and simplify 3D models by removing unnecessary geometry, such as rounds and fillets, with a single selection. This reduces the engineer's dependency on the CAD specialist for each iteration and improves the productivity of both.
- SpaceClaim supports export of geometry to an analysis solution through industry-standard formats including ACIS®, Parasolid®, IGES, STEP, and VDA. |
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With MSC Actran, you can address many different types of sound related problems including radiation, scattering, transmission through simple or sandwich partitions, enclosed sound fields, propagation in treated ducts, convected propagation, fluid-structure interaction and accurate modelling of damping.
Features unique to MSC Actran include: propagation of sound waves in a non-uniformly moving fluid, coupling of the FE solution to analytical components (infinite duct), implicit modelling of anechoic and reverberant chambers, acoustic transmission through or acoustic absorption by composite/sandwich structures, excitation of the structure by diffuse sound field or turbulent boundary layer.
What's more, MSC Actran offers a unique solver for quickly calculating the frequency response function of a damped or undamped system over a large frequency range with an arbitrary frequency resolution. This exclusive FRF synthesis technology leads to performance gains of up to 50 compared to standard frequency sweep techniques. |
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Sofy is a finite-element (FE) modeler that allows you to capture, create and deploy robust, standardized finite-element processes throughout your organization.
A variety of modules in Sofy allow you to capture standard finite-element processes or to program your own custom processes. The ability to pre- and post-process finite-element models automatically increases overall productivity and eliminates the need to constantly check and recheck the modeling methods.
An intuitive set of tools and technology in Sofy enable you to quickly and effectively generate, manipulate and manage complex finite element models. Sofy supports linear, non-linear, and transient post-processing for finite element analysis. |
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| The software suite delivers accurate, robust, high performance solutions for challenging non-linear problems, large 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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"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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DEFORM™-HT is a powerful stand-alone finite element modeling system for simulating heat treatment processes. The system predicts thermal, mechanical and metallurgical responses of parts during heat treatment. Heat treat distortion, quench cracking and residual stresses can be predicted. The system can also provide information on phase transformation and phase volume fraction.
A variety of materials ranging from carbon steel and aluminum to titanium and nickel
based alloys can be modeled. Typical heat treatment processes include:
- normalizing
- austenizing
- carburizing
- solution treatments
- quenching
- tempering
- aging
- stress relieving |
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Problems involving any combination of conduction, convection,
and radiation are solved easily with the Heat Transfer Module.
It finds extensive use in systems that involve the
generation and flow of heat in any form.
A variety of specialized modeling interfaces
are available for different formulations
and applications such as
surface-to-surface radiation,
nonisothermal flow, heat transfer
in structures made of thin layers
and shells, and heat transfer in
biological tissue.
The Heat Transfer Module allows for arbitrary couplings to other application modes in COMSOL Multiphysics and its modules for multiphysics modeling. This is particularly relevant to applications such as thermal management in the electronics industry, thermal processing and manufacturing, and medical technology and bioengineering.
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