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Simulation Driven Product Development
This presentation shows how Simulation Driven Product Development is a reality with ANSYS Workbench. It demonstrates coupled fluid structure interaction, impact analysis, advanced meshing, terrain generation, CFD design optimization and dynamic simulation. The presentation has been designed to give an overview of the possibilities without over technical complexity. A golf theme is used through out the material.
Run Time - 25:53
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ANSYS Magnetic Valve Assembly
This demonstration illustrates the process of using ANSYS EMAG to calculate magnetic torque versus position angle for a magnetic valve assembly. This example will show the complete process, beginning from a CAD assembly progressing to electromagnetic results for various operating positions of the valve. Along the way we will highlight:
- Creating a parametric model from static CAD data
- Generating an enclosure volume and a winding body
- Robust and flexible meshing for an electromagnetic simulation
- Including nonlinear B-H data to account for material saturation
- Rapid and robust convergence of the ANSYS solver
- Intuitive graphical post-processing of electromagnetic results
- Easy to perform parametric studies
This demonstration example is courtesy of INVENSYS, Inc.
Run Time - 8:30
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One Way Coupling Of CFX And ANSYS For Thermal Stress Analysis
With the release of ANSYS 11.0, the process of performing fluid structure interaction analysis has been significantly streamlined. In this brief demonstration, we will review the process of performing thermal stress analysis for a T-junction assembly. CFD analysis including heat transfer in the solid ws will be performed in ANSYS CFX. The temperature distribution on the inside ws is mapped onto the mechanical model and an ANSYS solution is performed in order to determine the resulting thermal stress and deformation. of this is performed in a single integrated CAE environment, ANSYS Workbench.
Run Time - 6:03
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Introducing ANSYS Workbench - Parametric Analysis Of A Nonlinear Damper Model
Demonstration of ANSYS Workbench on a nonlinear analysis of a damper. This demo shows Workbench features in a comprehensive way: CAD link, geometry cleaning, simulation, report generation and parametric model update.
Run Time - 8:35
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An Early Look at Two-Way FSI in ANSYS 11.0
With the impending release of ANSYS 11.0, the process of setting up and solving two-way FSI simulations will be supported entirely within the ANSYS Workbench environment. This will greatly improve the usability of this industry-leading capability. In this demonstration, we give you an early look at the process, using a simple model of a blood vessel which deforms in response to a pressure pulse applied at the inlet.
Run Time - 5:42
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ANSYS CFX Turbo System Overview
The ANSYS portfolio includes industry leading tools for fluid and mechanical simulation, as well as some special purpose applications developed specificy for the Turbomachinery industry. In this brief presentation, we will introduce you to the tools which make up the ANSYS CFX Turbo System, and familiarize you with the process workflow. The software components that we’ll introduce include ANSYS BladeModeler, which we use to create and modify blade geometry; ANSYS TurboGrid, for bladed component mesh generation; ANSYS CFX, for CFD simulation; and ANSYS Mechanical, for FEA simulation.
Run Time - 8:41
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ANSYS DesignModeler Module Demo - Track Frame
Covers: Midplane extraction; Surface extensions / joining, Parametric shell model, and Solid / Shell Mesh.
Run Time - 8:22
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B Valve – Creating A CFD Solid Using ANSYS DesignModeler
In this demonstration, we will review the process of connecting to a parametric CAD assembly and using ANSYS DesignModeler to extract the fluid volume to be used for a CFD study.
Run Time - 2:32
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B Valve – Simulating Hydrodynamic Performance
This demonstration covers the complete process of using ANSYS CFX to simulate the hydrodynamic performance of a b valve, taking you from CAD assembly to CFD results for two operating positions of the b valve. Along the way we will highlight:
- Connecting to your parametric CAD assembly
- Creating a high-quality hybrid mesh with excellent boundary layer resolution
- Easy physics definition using the quick setup wizard
- Robust and rapid convergence of the CFX solver
- Intuitive graphical post-processing of results
- Powerful quantitative results evaluation
- Persistent settings make it easy to perform parametric studies
For a more detailed description of any part of the process, consider viewing or part of the T-Junction demonstration.
Run Time - 8:09
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Geometry Associativity And Multiple Environment Scenarios
This demo shows how one can easily create design variations and compare their behavior under a given load case. ANSYS Workbench ows the user to create a model, setup loads and boundary conditions and simulate its behavior. Once the original model is created, it can be duplicated by a single mouse click. The duplicated model can then be geometricy modified and analyzed under the same conditions. Adding a new simulation scenario to an existing model is also done by duplicating an existing environment and modifying loads and boundary conditions. ANSYS Workbench offers powerful copy/paste capabilities to increase the productivity of your simulation.
Run Time - 5:07
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