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3-D Design Flow for HFSS
ANSYS Workbench is a powerful environment for Simulation Driven Product Development. This presentation highlights the new design automation features enabled in ANSYS Workbench to accelerate designs created in HFSS software. Examples include bidirectional parametric CAD integration, parametric and robust design, and multiphysics simulation.
Run Time - 1 hour
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Ask the Expert – Improving your CAD to Mesh Workflow with 14.0 Assembly Meshing
ANSYS 14.0 introduces a new powerful meshing capability, Assembly Meshing. With Assembly Meshing (AM) the user can generate meshes for flow volumes that are made up by a closed collection of solid and/or surface bodies without the need to do any fill or flow volume extraction operations in CAD. Contacts and small gaps can be easily addressed and the overall cleanup effort significantly reduced. In addition, AM generates conformal meshes without the need to create a multibody part.
The goal of this webinar are to introduce the concepts, features, benefits and limitations of this this new meshing method and provide the attendee with a solid understanding of the benefits and the areas of applicability. A short demo will be performed.
Run Time - 1 hour
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Ask the Expert – System Level Simulation Using ANSYS Icepak and Simplorer
While Computational Fluid Dynamics (CFD) has been used very successfully for large thermal simulations, system level CFD models are typically too time consuming for repeated transient thermal analysis. System level thermal network models can be applied to such big and complex thermal systems to generate accurate and faster responses: It has been observed that many of the thermal systems are Linear and Time Invariant (LTI), so Model Order Reduction (MOR) can be applied to such systems. In this methodology, transfer functions are created between the set of outputs and inputs. For the thermal problem at hand, the inputs can be power (or heat source), and the outputs are typically the temperature at user-specified locations.
The goals of this webinar are:
- Understand the concepts of Linear and Time Invariant systems, Space State Model & Model Order Reduction with respect to thermal systems.
- Learn to set up the Icepak Simplorer Coupling workflow through an example
- Understand the importance of such Electro thermal simulation in overall thermal system design
Run Time - 1 hour
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Using ANSYS DesignModeler and ANSYS Mechanical to Asses Beam Structures
Demo for using ANSYS DesignModeler and ANSYS Mechanical to asses beam structures.
Run Time - :12
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Electromagnetic Force Coupling in Electric Machines Including Stress, Deformation and Acoustic Analysis
Understanding the impact of electromagnetic forces on noise generation for electric machines includes many factors. This presentation reviews and illustrates electromagnetic forces, stress, deformation and acoustic coupling in ANSYS Workbench. It includes an example showing automatic mapping of magnetic time-domain forces and a comparison of stresses for different rotor eccentricities.
Run Time - 1 hour
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ANSYS 14.0 Update for Automatic and Robust CFD Meshing
The new assembly meshing methods in ANSYS software produce high-quality hex-dominant mesh generation directly from assemblies. Using simple material-material point definition, users can extract flow volumes for CFD simulation without the need for Boolean operations. Assembly meshing is fully integrated into ANSYS Workbench.
Run Time - 1 hour
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Structural Mechanics Solutions
Structural integrity is one of the most critical considerations in product design. Market pressures dictate that products are stronger, longer lasting and packed with customer-requested features. At the same time, the bottom line must drive time, costs and risk out of the product development cycle while creating ongoing innovations. By leveraging ANSYS software, engineering teams can simulate all structural aspects of a product — conducting linear static analyses that reveal stresses or deformations, modal analyses that determine vibration characteristics, and advanced transient nonlinear studies that focus on dynamic effects and complex behaviors.
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Systems & Multiphysics Solutions
Few product systems are affected by just one physical force. In the real world, products undergo a wide range of thermal, mechanical, electromagnetic and fluidic forces. Consequently, to accurately predict performance, a system-level assessment must include multiphysics considerations. As products become increasingly complicated, leading companies are using ANSYS multiphysics simulation at the systems level, and earlier in the process, to ensure that the products created live up to their promise.
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ANSYS 14.0 Update for Composites Design
Composite materials have gained popularity (despite their generally high cost) in high-performance products that need to be lightweight yet strong enough to take harsh loading conditions. Compared to traditional structures made of single materials such as steel or plastic, composites are much more challenging to simulate. This presentation discusses all aspects of composites simulation, from model setup to advanced modeling techniques such as VCCT and delamination.
Run Time - 1 hour
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HFSS with HPC for Large Finite Antenna Array Design
For many years, infinite array approximations have been applied to reduce the complexities of simulating large finite arrays. By applying the latest HFSS domain decomposition technology, large finite arrays can be efficiently solved. This presentation reviews the design methodology and provides examples of large finite arrays, demonstrating the increased capacity that HFSS offers for solving finite periodic structures.
Run Time - 1 hour
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