ANSYS ICEPAK TUTORIALS PDF

ANSYS, Inc. June 21, 2. • ANSYS Icepak Overview. • Sample Problem: Thermal analysis of electronics in downhole equipment. I want to learn ansys icepak, where can I get video help me if anyone knows. Contains proprietary and confidential information of ANSYS, Inc. and its subsidiaries and affiliates. iii. ANSYS Icepak Tutorials Step Additional Exercise.

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Table of Contents 1.

Using This Manual 1. How To Use This Manual 1. For the Beginner 1. For the Experienced User 1. Finned Heat Sink 2. Create a New Project 2. Build the Model 2.

Generate a Mesh 2. Physical and Numerical Settings 2. Save the Model 2. Calculate a Solution 2. Examine the Results 2. Create a New Project 3. Build the Model 3. Generate a Mesh 3. Physical and Numerical Settings 3. Save the Model 3. Calculate a Solution 3. Examine the Results 3.

Use of Parameterization to Optimize Fan Location 4. Create a New Project 4.

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Build the Model 4. Creating Separately Meshed Assemblies 4. Generate a Mesh 4. Setting up the Multiple Trials 4. Creating Monitor Points 4. Physical and Numerical Setting 4. Save the Model 4. Calculate a Solution 4. Examine the Results 4.

Create a New Project 5. Build the Model 5. Create a Separately Meshed Assembly 5. Generate a Mesh 5. Physical and Numerical Settings 5.

Save the Model 5. Calculate a Solution 5.

ANSYS Icepack: Electronics Cooling Simulation

Examine the Results 5. Create a New Project 6. Build the Model 6. Generate a Mesh 6. Physical and Numerical Settings 6. Save the Model 6. Calculate a Solution 6.

Icepak Tutorials

Examine the Results 6. Create a New Project 7. Build the Model 7. Generate a Conformal Mesh 7. Physical and Numerical Settings 7. Save the Model 7.

Calculate a Solution 7. Examine the Results 7. Add an Assembly to the Model 7. Generate a Non-conformal Mesh 7. Mesh and Model Enhancement Exercise 8.

Training Method Used 8. Loading the Model 8. A 15 Minute Exploration 8. Non-Conformal Mesh for the hi-flux-comps Cluster 8. A Super Assembly 8.

ANSYS Icepak

Separation Tolerance and Minimum Gap Settings 8. Loss Coefficient for a Hexa-Grille 9. Create a New Project 9. Build the Model 9. Define Parameters and Trials 9. Generate a Mesh 9. Physical and Numerical Settings 9. Save the Model 9. Calculate a Solution 9. Examine the Results 9. Inline and Staggered Heat Sinks Comparison Create a New Project Build the Model Define Design Variables Generate a Icspak Physical and Numerical Settings Save the Model Calculate a Solution Examine the Results Minimizing Thermal Resistance Define Primary, Compound, and Objective Functions Optimization in DesignXplorer Solving the Model Without Radiation Ray-Tracing Radiation Model Generate a Summary Report Create a Zoom-In Model Edit the Zoom-in Model Mesh the Zoom-In Model Zoom-In Physical and Numerical Settings Aneys the Zoom-in Results Additional Exercise 1 Additional Exercise 2 Component Filtration Alternatives Component Models Alternatives Modeling CAD Geometry Creating a New Project Set Physical and Numerical Values Microelectronics Packages – Compact models