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The software products and documentation may be used, disclosed, transferred, or copied only in accordance with the terms and conditions of that software license agreement. Government Rights For U. Published in the U. Table of Contents 1. Using This Manual What's In This Manual How To Use This Manual For the Beginner For the Experienced User Finned Heat Sink Problem Description Step 1: Create a New Project Step 2: Build the Model Step 3: Generate a Mesh Step 4: Physical and Numerical Settings Step 5: Save the Model Step 6: Calculate a Solution Step 7: Examine the Results Step 8: Summary Step 9: Additional Exercise RF Amplifier Step 3: Create Assemblies Step 4: Generate a Mesh Step 5: Physical and Numerical Settings Step 6: Save the Model Step 7: Calculate a Solution Step 8: Examine the Results Step 9: Summary Use of Parameterization to Optimize Fan Location Step 3: Creating separately meshed assemblies Step 5: Setting up the Multiple Trials Step 6: Creating monitor Points Step 7: Physical and Numerical Setting Step 8: Save the Model Step 9: Calculate a Solution Step Examine the Results Step Reports Step Summary Step 3: Create a separate mesh assembly Step Additional Exercise Non-Conformal Mesh Step 3: Generate a Conformal Mesh Step 8: Add an Assembly to the Model Step 9: Generate a Non-conformal Mesh Step Save the Model Step Calculate a Solution Mesh and Model Enhancement Exercise Skills Covered Training Method Used Loading the Model A 15 Minute Exploration Step-by-Step Approach Modification 4: A Super Assembly Loss Coefficient for a Hexa-Grille Step 3: Define Parameters and Trials Inline or Staggered Heat Sink Step 3: Define Design Variables Step 5: Generate a Mesh Step 6: Physical and Numerical Settings Step 7: Save the Model Step 8: Define Monitor Points Minimizing Thermal Resistance Step 8: Calculate a solution Step 9: Examine the Results Radiation Modeling Step 5: Solving the model without radiation Step 7: Calculate a Solution- No radiation Step Ray Tracing Radiation Model Transient Simulation Zoom-In Modeling Step 8: Create a Zoom-In Model Step 9: Edit the Zoom-in Model Step Mesh the Zoom-In Model Step Examine the Zoom-in Results IDF Import Step 3: Component Filtration Alternatives Step 4: Component Models Alternatives Step 5: Summary Modeling CAD Geometry Step 1: Creating a New Project Step 1: Generate a Mesh Step 2: Physical and Numerical Settings Step 3: Save the Model Step 4: Calculate a Solution Step 5: Examine the Results Step 1: Generate a mesh Step 3: Calculate a Solution Step 4: Examine the Results Using the Model Layers Separately Option
ANSYS Icepak Tutorials r170
Electrical and mechanical engineers working in this environment will enjoy a completely automated design flow with seamless coupling from HFSS, Maxwell and Q3D Extractor into Icepak for steady-state or transient thermal analysis. Engineers can rely on Icepak for an integrated electronics cooling solution for electronic applications ranging in scale from individual ICs to packages and PCBs, up to computer housings and entire data centers. The Icepak solver performs conduction, convection and radiation conjugate heat transfer analyses. It has many advanced capabilities to model laminar and turbulent flows, and species analysis including radiation and convection. Icepak provides a vast library of fans, heatsinks and materials to furnish solutions to everyday electronic cooling concerns. Beat the heat with ANSYS Icepak, a premier simulation tool to perform electro-thermal and standalone thermal analyses of electronic designs. Integration with the ANSYS engineering portfolio gives you an unequaled design flow to analyze difficult issues including PCB warping, motor cooling and more.
In this tutorial, we will show a workflow entirely within the Rescale platform. Once you are comfortable with the Rescale platform, you can tailor the workflow to suit your needs. For the basics on Rescale batch, please refer to our guide. Next, click Save on the job to have a copy of the files in your Rescale cloud files. Note, although you can run this job directly, to continue with this tutorial do not submit this case directly. We are cloning the job in order to import the simulation file ansys-icepak-packed.
ANSYS Icepak Tutorials R180 (1).pdf