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SAMCEF allows the linear and non-linear analysis of composite materials structures (e.g. sandwich materials [honeycomb, foam...], laminated constructions, filament wound pressure vessels...) including various delamination and progressive damage models of fibers/matrix systems...
SAMCEF Field is the interdisciplinary pre/post-processing tool for SAMCEF for Composites.
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Closing the Loop Between Composite Design and Analysis
Together with the FiberSIM Composite Engineering Environment (CEE) or FiberSIM Advanced Composite Engineering Environment (ACEE), FiberSIM Analysis Interface™ enables engineers to design a composite part in their existing CAD system, perform producibility simulation, and then use the complete definition of the part in its to-be-manufactured form as input into a finite element analysis (FEA) package. The analyst can then run the analysis using the ply definitions and fiber orientations from the final part design, as opposed to an idealized design that may in fact be impossible to manufacture, resulting in a more accurate assessment of the part.
FiberSIM Analysis Interface provides exact fiber orientations to generate laminate properties for improved structural analysis by popular FEA software. An interface to flow modeling software for Resin Transfer Molding is also available.
The FiberSIM Analysis Interface enables engineers to:
Accurately verify part performance;
Provide detailed analysis properties from CAD models;
Work with multiple material and process simulation models.
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ASAS is an offshore structural finite element system with integrated modules to address the specific needs of offshore and marine engineers. It provides an integrated facility for performing structural assessment of most types of offshore/marine structures including jackets, jack-ups, concrete gravity-based platforms, risers, FPSOs, TLPs, semi-submersibles and, of course, ships.
Two packages are available. ANSYS ASAS provides a general purpose analysis capability with linear and nonlinear options including code checks for framed structures (i.e., joint checks and member checks). ANSYS ASAS Offshore extends ANSYS ASAS to include modules for wave loading, soil-pile-structure interaction and spectral fatigue due to wave, current and wind loading. Model creation can be performed via ANSYS® or with FEMGV®.
ANSYS ASAS is highly appreciated because of the following distinguishing capabilities, including:
Coupled wave/current/wind-structure interaction with nonlinear structural response
An integrated results database which can be accessed by MS-EXCEL© and Mathcad©
Deterministic and spectral fatigue analysis capabilities (e.g., for jackets and flare towers)
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Combine the premier software package for explicit nonlinear structural simulation with one of the industry%u2019s most recognized and respected finite element pre- and post-processors, and you get ANSYS LS-DYNA, the result of a collaborative effort between ANSYS, Inc. and Livermore Software Technology Corporation. First introduced in 1996, ANSYS LS-DYNA%u2019s capabilities and robustness have helped thousands of customers in numerous industries resolve highly intricate design issues.
Limited-duration events (such as severe collisions and blade containment) and large, permanent deformations (within the stamping and forming industries) present engineers with unique simulation challenges. ANSYS LSDYNA meets these challenges by fusing LSTC%u2019s LS-DYNA explicit dynamic solver technology with the pre-/post-processing power of ANSYS software. This powerful pairing helps engineers understand the elaborate combinations of nonlinear phenomena found in crash tests, metal forging, stamping and catastrophic failures.
ANSYS LS-DYNA supports both 2-D and 3-D explicit elements, and features an extensive set of single-surface, surface-to-surface and node-to-surface contact as well as a contact analysis option that automatically creates the contact surfaces. ANSYS LS-DYNA also gives optional methods for fast solution processing. The symmetric multiprocessing (SMP) and massively parallel processing (MMP) methods optimize the power of multiple CPUs to deliver explicit simulation results in a fraction of the time.
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CoCreate Finite Element Analysis
Run design, analysis and simulation in parallel
CoCreate Finite Element Analysis--an integrated 3D CAD-CAM software module inside CoCreate Modeling, is a powerful FEA tool for quickly analyzing real-world design conditions, so you can deliver higher quality products at lower cost. With the simulation and digital prototyping capabilities of this design analysis module, you can validate your product design to meet your customer's physical demands during new product development.
Benefits
* Set up, analyze and save studies directly with the model, allowing for quick reuse and team design communication
* Analyze and digitally prototype individual parts or entire assemblies to improve design for structural integrity
* Conduct standard analyses on product designs, including linear static, modal, buckling, and steady-state thermal analysis
* Incorporate stress, strain, deformation, and temperature distribution throughout your product design with combined thermal and structural analysis
* Analyze both thin-walled and sheet metal parts with shell elements to avoid computational overhead
* Interpret analysis results with easy-to-use visualization tools, animations, and post-study inquiries
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Flux is a general purpose CAE software which only requires that one clearly describe their idea. This is done by defining the individual components which make up the idea in each of the following areas:
- Physical shape, or geometry
- Relative location and orientation
- Mesh or discretization
- Material character
- Excitation or energy source for the idea
Flux then solves for the requested physics and provides one with multiple ways to scrutinize the solution, and to review the success of the idea. You can view the results in many different ways to clearly scrutinize your design idea. You can use color-shaded maps or isovalue lines within the problem region to look at quantities like flux density or heat distribution. You can use variation curves versus time or position, or make spatial spectrum computations. Additionally you can analyze global quantities like inductance, energy, force and torques.
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SAMCEF Linear is a general purpose Finite Element Analysis package.
SAMCEF Linear is driven by SAMCEF Field, the interactive graphical user interface for the modeling, the analysis and the post-processing of structures.
The linear analysis of complex structures can entail the pre-processing of a huge amount of data. SAMCEF Linear benefits from advanced visualization tools, allowing very efficient and straightforward pre- and post-processing of linear analyses.
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Simulation Premium
One of the most comprehensive and sophisticated Finite Element Analysis (FEA) packages available, SolidWorks® Simulation Premium integrates completely with SolidWorks CAD software.
Bring highly advanced validation tools to your design teams at a fraction of the cost of most high-end FEA programs.
Any engineer can easily apply SolidWorks Simulation Premium to perform tough validation tasks like these:
- Study the performance of your designs for excessive deflections and stresses under dynamic loads.
- Perform nonlinear analysis–including impact–on plastics, rubbers, polymers, and foam.
- Conduct contact analysis coupled with nonlinear materials.
- Evaluate the behavior of composite materials.
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Nozzle/Pro is designed specifically for the instances where excessive conservatism or dangerous designs might result from dated and often inadequate simplified techniques. Nozzle/Pro is 'sharpening the pencil', and eliminating uncertainty in a calculation. If a WRC 107 method, for example, in cases where WRC 107 estimates a result within plus or minus 150%, Nozzle/Pro can and will produce a result within 15% and will produce it much faster.
* Nozzle/Pro is easier to use than WRC 107 and far more accurate
* Nozzle/Pro produces stresses in straight, pad reinforced or barrel reinforced nozzles, and structural attachments in spherical, dished, elliptical, flat or conical heads and cylinders using the finite element method.
* Nozzle/Pro is also automatically used by Compress, AsmEQuip or Code Calc. If you have one of these products, you can automatically produce finite element results using Nozzle/Pro.
* Nozzle/Pro produces 3d models and "inspector ready" reports in an easy to read HTML format that can be reviewed by anyone with an internet browser
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SAMCEF provides a powerful method extending Fourier method in order to perform linear and non linear multi-harmonic analyses of axi-symmetric structures, under any load case and taking into account if any coupling between different harmonics. This method is particularly suited to the buckling of cylindrical shallow shells.
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Image Processing Toolbox™ software provides a comprehensive set of reference-standard algorithms and graphical tools for image processing, analysis, visualization, and algorithm development. You can restore noisy or degraded images, enhance images for improved intelligibility, extract features, analyze shapes and textures, and register two images. Most toolbox functions are written in the open MATLAB® language, giving you the ability to inspect the algorithms, modify the source code, and create your own custom functions.
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LEED IMAGE ANALYSIS SYSTEM
Model LIM08
Contains low light integration CCD camera, frame grabber, and ambient light cover
Features
Integrated image acquisition and beam energy control on regular and zoomed images
Measurements on "live" or "saved" images
Lattice constant calculations
Spot Intensity profile with fine adjustment
Manual and automatic I-V measurements
Subtraction and addition of images
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Simulate More Reliably
Industry Standard Engineering Analysis Solutions
MSC.Software's engineering analysis technologies serve as the rock-solid foundation for the most reliable enterprise simulation results. MSC's best-in-class, industry-standard analysis technology, including Nastran, Adams, Marc, Dytran, Easy5, and Patran, power the advanced simulation capabilities of SimEnterprise Solutions.
Covering the full spectrum of engineering analysis from structural linear, nonlinear, and explicit nonlinear to computational fluid dynamics, fluid structure interaction, and more, MSC.Software's engineering analysis tools help you analyze virtually any product design, from the simplest components to complex assemblies. These technologies have become the standard for mechanical, structural, and mutli-body dynamics simulation in several industries, and manufacturers depend on these tools for highly reliable virtual test results.
As an integral part of your simulation environment, these analysis tools can be used standalone, or as part of a broader MD simulation solution. Whether there is an expert analyst or a designer using an MSC workspace environment, commonality of the underlying solver foundation ensures repeatable results and maximum reliability and performance.
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The Acoustics Module is a world-class solution to all your acoustics modeling needs. Easy-to-use application modes provide the tools to model acoustic wave propagation in air, water, other fluids—and even solids.
It is designed specifically for those who work in classical acoustics with devices that produce, measure, and utilize acoustic waves. Just a few application areas from the audio industry include speakers, microphones, and hearing aids, while those for noise control can address muffler design, sound barriers, and building acoustics.
The modeling of acoustics-structure interaction is easily done with the Acoustics Module. This capability is particularly attractive for appli-cations such as the design of sonar transducers in medical and non-destructive testing applications as well as those used for noise and vibration analyses.
This module also features a special interface for modeling aeroacoustics, which is especially useful for the control of aircraft engine noise. In addition, its general multiphysics ability enhances classical acoustics with further accuracy.
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OOFELIE VibroAcoustics, driven by SAMCEF Field, is a Virtual Prototyping tool for the analysis and design of acoustics and vibro-acoustics situations.
Through the use of SAMCEF Field modeling capabilities, it becomes possible to start simulating the performance of such systems even before a single physical prototype is built.
Design changes can be evaluated faster and in a more affordable manner, reducing the number of actual prototypes required to achieve a required design maturity, thus accelerating significantly product development.
Thanks to such a tool, the engineers acquire a capability to isolate and analyze the effect of each parameter. With such insight available at their fingertips, information can be quickly gained to correct or improve previous designs efficiently knowing which are the influent factors.
Reduced design time, improved quality and reduced costs are some of the benefits one can now reap from using OOFELIE VibroAcoustics, driven by SAMCEF Field.
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STAR6 Modal
The STAR6 System™ combines the latest structural analysis technology with an intuitive interface based on Microsoft Windows™. From operating deflection shapes to modal and time domain analysis, from advanced analysis of multireference parameter estimation to structural dynamics modifications, STAR6 does it all.
STAR6 Acoustics
Optimized for identifying noise sources and quantifying sound power, CATSAcoustics / STARAcoustics simplifies testing and helps you attain unmatched testing accuracy.
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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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Implementing a completely virtual product development system saves money and moves products to market faster. But many companies don't implement such a system because of the high cost of CAE software. Fortunately, there is a low-cost alternative that gives even beginning users access to a considerable amount of simulation power.
ANSYS Professional is an inexpensive, easy-to-use program for structural/thermal analysis projects. Containing the power of the industry's leading simulation technology, ANSYS Professional gives users high-level simulation capability without the need for high-level expertise. It comes complete with a full contingent of linear elements, significant nonlinearities, the ability to solve complex assemblies-cluding shell-to-solid-and the most requested set of solvers.
First-time users can access the ANSYS Workbench environment and easily proceed through the simulation step-by-step. The ANSYS Workbench is a new-generation tool that offers an efficient and intuitive user interface, superior CAD integration, automatic meshing, access to model parameters, and access to much of the functionality available in ANSYS Professional, all within one environment. As additional simulation capability is required, the user can move up to the newly revised, single-window ANSYS environment.
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Pro/ENGINEER Mechanica
Gain product insight
Costly and laborious prototyping hinders a design team, resulting in compromised schedules and budgets. However, with Pro/ENGINEER Mechanica, designer engineers can better understand product performance, and accommodate the digital design accordingly -- all without needing a specialist’s FEA-background. The result: engineering gains early product insight, improves verification and validation processes, and delivers higher quality products at lower cost.
Benefits
- Conduct standard analysis types, including linear static, modal, buckling, contact and steady state thermal
- Obtain real-world performance data by directly applying conditions to design geometry without requiring data translation
- Fast, automatic solution convergence, mapped precisely to underlying CAD geometry; 3rd party solver output
- Increase innovation by simultaneously designing and simulating results of design variations
- Decreases development costs through reduction or even elimination of physical prototyping and productive, engineering-friendly user interface
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SAMCEF Field is a fully integrated CAE environment for linear and non-linear structural and thermo-mechanical analyses, for multibody simulation based on FE methods and for multiphysics problems.
SAMCEF Field allows you to design your systems with a simple click, using pop-up menus, icon bars, shortcuts or keyboard commands. Design, modeling, analysis and results post-processing operations are driven in a fully contextual and single environment.
Indeed, in addition to its interfaces with CAD, its local modeler and its powerful meshers, SAMCEF Field supports:
- linear analysis (static, modal, buckling);
- stationary thermal analysis;
- non-linear structural analysis;
- multi-body simulation;
- composite materials analysis in both linear and non linear conditions.
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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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SIMULIA Extended Analysis extends the CATIA V5 Analysis capabilities. Designers looking to quickly evaluate real world performance and deliver the right design, the first time, now can enhance their product simulation methods to include basic nonlinear and thermal analysis.
The existing CATIA Analysis products are ideal for designers who want to evaluate their designs, but are limited to the linear structural response of parts and assemblies. Many products are subject to both thermal and structural loads, or are made of materials like rubber that are inherently nonlinear. Designers may also want to study the effect of overload conditions when the product might suffer permanent deformation.
SIMULIA Extended Analysis addresses this need with the introduction of two analysis products, Nonlinear Structural Analysis (ANL) and Thermal Analysis (ATH). These products are intended for designers looking to accurately size designs and quickly evaluate real world performance
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CALISTO is a NEW software developed for Thermal Analysis applications from DSC, TGA, TMA and Calorimetry.
CALISTO comprises two independent parts:
- CALISTO ACQUISITION for the control of SETARAM Thermal Analysis Systems
- CALISTO PROCESSING for the treatment of ANY Thermal Analysis Data independent of instrument type or manufacturer.
CALISTO ACQUISITION
- Program acquisition procedures (all experimental conditions and parameters)
- Control one or more Setaram systems via a PC
- Save experiment signals and monitor their progress in real time
- Change experimental conditions during an experiment
- Trigger acquisition of other equipment (mass spectrometers, FTIR)
CALISTO ACQUISITION software is available for the exciting NEW range of EVO products and is also compatible with existing SETARAM products.
CALISTO ACQUISITION provides a unique combination of ease-of-use and intuitive operation as well as powerful control of your Setaram systems.
CALISTO PROCESSING
- Imports files saved in CALISTO Acquisition
- Imports signal files from other equipment (mass spectrometers, FTIR)
- Treats recorded signals
CALISTO PROCESSING offers the most powerfull tools available for Baseline Selection / Substraction, Peak deconvolution / Separation, Data Presentation, Data Export , Cp (Heat Capacity) determination.
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TAS is a system designed to computer simulate nearly any thermal problem you have.
Problems are simulated geometrically using 2D Plate and 3D Brick and Tetrahedron elements. TAS can accurately represent skewed elements. TAS uses a Finite Element method to convert geometry into an accurate resistor/capacitor representation which is then accurately and quickly solved using a finite difference or Conjugate Gradient method. This combination gives accurate results like other Finite Element (FEA) solver and provides you with unsurpassed flexibility in model generation. There are no limits to model size, only limited to PC memory.
Complete, no other tools are required
Complete model generation, solving and post processing in one environment
On-line and context sensitive help
Built-in steady state and transient finite difference solvers
Model size only limited by available memory
Electronic components
Satellites, interfaces with TRASYS, TSS, RadCAD and Thermal Desktop
Printed circuit boards
Medical instruments
Air and liquid cold plates
Heat sinks
Interface with ANSYS, Nastran, FEMAP, SINDA/G and SINDA/FLUINT
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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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SAMCEF Thermal is a general non-linear thermal analysis program for both steady state and transient analysis, taking into account conduction, convection and radiation. Because SAMCEF Thermal shares its infrastructure with SAMCEF Mecano, both thermo-mechanical chaining as well as the inclusion of, for example, numerical controllers is straightforward.
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ANSYS Multiphysics integrates the power of direct (matrix) and sequential (load vector) coupling to combine the appropriate "physical fields" required for accurate, reliable simulation results in applications ranging from cooling systems, power generation, to biotechnology and Micro Electro Mechanical Systems (MEMS). The software easily simulates complex thermal-mechanical, fluid-structural and electrostatic-structural interactions, and includes the complete range of powerful ANSYS iterative, direct and eigenvalue matrix solvers.
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Portunus is a system simulator that has been developed especially for the calculation of mechatronic systems. Possible applications range from the simulation of drive systems and switched mode power supplies to investigation of the heating of electronic components.
Several description approaches (network, block diagram, state machine) are available for the simulation of electrical, mechanical and thermal systems. With Portunus you may run different analysis types (simulations in the time and frequency domain, calculation of steady-state and operating point). The effect of parameter variations may be calculated and displayed automatically. Alternatively, it can be visualized using the interactive capabilities of the software.
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