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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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TracePro® is a comprehensive, versatile software tool for modeling the propagation of light in imaging and non-imaging opto-mechanical systems. Models are created by importing from a lens design program or a Computer Aided Drafting (CAD) program or by directly creating the solid geometry in TracePro. Source rays propagate through the model with portions of the flux of each ray allocated for absorption, specular reflection and transmission, fluorescence and scatter. From the model and ray trace, analyze:
- Light distributions in illumination and imaging systems
- Stray light, scattered light and aperture diffraction
- Throughput, loss, or system transmittance
- Flux or power absorbed by surfaces and bulk media
- Light scattering in biological tissue
- Polarization effects
- Fluorescence effects
- Birefringence effects
TracePro features a simple, intuitive interface and short learning curve that is both powerful and user-friendly for engineers and scientists of all disciplines.
Three editions of TracePro are available to most cost effectively accommodate design needs. Node locked and floating network licenses are available for use on a single computer with a USB hardware key and on a network respectively. A three month Maintenance and Support Subscription is included with all licenses.
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PRINCIPLE OF OPERATION:
The reason for a stencil is reproduced precisely on all electroconducting metals thanks to a reaction between an electrical current and an electrolyte.
APPLICATION:
Marking of a squaring or a network of circles on test tubes intended to be deformed and controlled.
ADVANTAGES:
- Instantaneous, indelible Marking and of very high resolution,
- Possible Marking on all electroconducting metals,
- No deformation of the marked support,
- Noncorrosive Marking,
- Various levels of power available for the small ones and great zones of marking,
- High-resolution of the stencils,
- Great lifespan of the stencil: 7.000 markings,
- Various types of professional screens available: squaring, network of circles....
- Catch in easy and instantaneous hand,
- Portable System delivered with a cary case,
- Many accessories available for the tramage (rollers of marking, electrolytes...),
-...
ÖSTLING, world leader of electrolytic marking proposes to you the most complete range of systems and accessories of the market.
ÖSTLING: Your Partner Marking |
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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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ANSYS ICEM CFD CAD & STL repair
Post-Processing
A state of the art post- processing and visualization module, ICEM CFD Visual3, provides the CFD professional with easy-to-use powerful result visualization features for structured, unstructured, and hybrid grids. ICEM CFD Visual3 provides an in depth view of data with visualization tools such as cutting planes, contouring, iso-surfaces, streamlines, line plots, data probes and animation. Features such as a CFD function professional calculator and an intuitive based user interface make ICEM CFD Visual3 a powerful interpretation tool of computed results. The ANSYS ICEM CFD Visual3 is a flexible and customizable post-processor that professional interfaces with all the major CFD/CAE solvers.
ICEM CFD Visual3 provides an integrated environment for CAD Geometry, ICEM CFD computational grids, and the flow solution.
ICEM CFD Visual 3 can read files written in the following formats; CGNS, AVS, CFD+ , CFX, DAMAS, Ensight, Fensap, Fieldview, Fluent, Hawk, ICAT, NetCDF, NS3D, Plot3D, STAR-CD, Tecplot, AcuSolve and TDM. Most solvers can output in at least one of these formats, so these actually cover many solvers.
It can also be used to map CFD results on to FEA mesh which can then be exported to FEA solvers such as ANSYS, ABAQUS, NASTRAN, LSDYNA or AUTODYN. |
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RAD-CON offers process optimization professional software for professional bell annealing that increases throughput, decreases energy consumption, and improves quality. The dynamic thermodynamic model calculates optimal heating and cooling times as well as process decision to improve cleanliness and sticker professional brake performance.
Although typically used for production, the product can also be used to simulate the annealing process for training and research / development. This tool allows new cycle development and process capacity calculations.
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Process Improvement (BPI)
Business Process Improvement (BPI) is a systematic approach to help organizations change the way it does business or literally transform their business from top to bottom. Organizations looking to improve their processes to impact their bottom line answer several questions:
Who are we? What do we do? Why do we do it?
Who are our customers?
How do we do our jobs better?
Lanner offers comprehensive support for business process improvement. From analysis of the current process structure right through to the implementation of improvements, our technology and services solutions will guide you every step of the way. In addition, Lanner specializes in assessing e-business change through accurate modeling to ensure new planned processes will work. Some of our most successful BPI solutions are:
Productivity Improvement
People and Transportation Flow
Supply Chain and Logistics
Maintenance Planning
Resource Planning
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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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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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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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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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| ... products without technical information |
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Calculation, Simulation, Modeling software
