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Introduction to ANSYS Icepak - (Also available as Self-paced Learning)

Overview

ANSYS Icepak provides flow and thermal management solutions for many types of electronic design applications. The primary goal of this course is to cover the basics of working in the ANSYS Icepak user environment. Students will be introduced to the world of electronics thermal modelling through a combination of lectures, workshops and examples/demonstrations. The lectures and examples/demos are covered during the online sessions while the workshops are to be completed independently between online sessions. The online sessions include ample Q & A time to discuss questions, comments and feedback related to the workshops and Icepak modelling in general.

Prerequisites

  • A technical education and background in fluid mechanics and heat transfer is recommended but an engineering degree is not required. This course is designed for clients who have little to no experience with ANSYS Icepak.

Target Audience: Engineers and Designers

Teaching Method: Lectures and computer practical sessions to validate acquired knowledge. A training certificate is provided to all attendees who complete the course.

Self-paced Learning: Complete a class on your own schedule at your own pace. Scope is equivalent to Instructor led classes. Includes video lecture, workshops and input files. All our Self-Paced video courses are only available with an ANSYS Learning Hub subscription. Register for a subscription using the tab below or contact training@ansys.com for more information.

Agenda SUBSCRIBE TODAY  

Agenda :

  • Virtual Classroom Session 1
    • Lecture: Introduction and ANSYS Icepak Overview
    • Lecture: Interface and Modelling Basics
  • Virtual Classroom Session 2
    • Lecture: Model Building using ANSYS Icepak Primitives - Part 1
    • Building using ANSYS Icepak Primitives – Part 2
    • Workshop: Model Building using ANSYS Icepak Primitives - Part 1
    • Workshop: Model Building using ANSYS Icepak Primitives - Part 2
  • Virtual Classroom Session 3
    • Lecture: Conformal Meshing
    • Lecture: Non-Conformal Meshing
    • Workshop: Conformal Meshing

    • Workshop: Non-Conformal Meshing

  • Virtual Classroom Session 4
    • Lecture: Solver Setup
    • Lecture: Physics and Transient Modeling
    • Workshop: Basic Solving and Post Processing
    • Workshop: Transient Simulation
  • Virtual Classroom Session 5
    • Lecture: Post Processing
  • Virtual Classroom Session 6

    • Lecture: Parametric and Optimization

    • Lecture: Using Macros in ANSYS Icepak

    • Workshop: Parametric Trails

  • Virtual Classroom Session 7
    • Lecture: ECAD Import
    • Lecture:  Introduction to ANSYS Workbench and ANSYS SpaceClaim
  • Virtual Classroom Session 8
    • Lecture: MCAD to ANSYS Icepak using ANSYS SpaceClaim
    • Workshop: MCAD to Icepak using ANSYS SpaceClaim
  • Virtual Classroom Session 9
    • Lecture: Multi-Level Meshing
    • Workshop: Multi-Level meshing
  • Virtual Classroom Session 10
    • Lecture: Tips and Tricks
  • Live Classroom Day 1
    • Lecture: Introduction and ANSYS Icepak Overview
    • Lecture: Interface and Modelling Basics
    • Lecture: Model Building using ANSYS Icepak Primitives – Part 1
    • Workshop: Model Building using ANSYS Icepak Primitives - Part 1
    • Lecture: Conformal Meshing
    • Workshop: Conformal Meshing
    • Lecture: Solver Setup
    • Workshop: Basic Solving and Post Processing
    • Lecture: Post Processing
  • Live Classroom Day 2
    • Lecture: Model Building using ANSYS Icepak Primitives – Part 2
    • Lecture: Icepak Import Options

    • Workshop: Model Building using ANSYS Icepak Primitives - Part 2

    • Lecture: Non-Conformal Meshing

    • Workshop: Non-Conformal Meshing

    • Lecture: Physics and Transient Modeling

    • Workshop: Transient Simulation

    • Lecture: Using Macros in ANSYS Icepak

  • Live Classroom Day 3
    • Lecture: Introduction to ANSYS Workbench and ANSYS SpaceClaim
    • Lecture MCAD to ANSYS Icepak using ANSYS SpaceClaim
    • Workshop: MCAD to Icepak using ANSYS SpaceClaim
    • Lecture: Multi-Level Meshing
    • Workshop: Multi-Level meshing
    • Lecture: Parametric and Optimization
    • Workshop: Parametric Trails
    • Lecture: Tips and Tricks
Filter By Country :
Date/Time Duration Event Type Location Language Class Cost
February 28, 2019
9:00 AM - 5:30 PM   CET (GMT +1) 		February 28, 2019 2 Days
Feb 28, Mar 01 		Live Wavre , Belgium English 1300   EUR
Buy Class  › Subscriber Login  ›
March 28, 2019
9:30 AM - 5:30 PM   CET (GMT +1) 		March 28, 2019 2 Days
Mar 28-29 		Live Milano , Italy Italian 1300   EUR
Buy Class  › Subscriber Login  ›
May 21, 2019
9:00 - 17:00   CEST (GMT +2) 		May 21, 2019 3 days
May 21-23 		Live Stockholm , Sweden English 1950   EUR
Buy Class  › Subscriber Login  ›
March 12, 2019
10:00 - 17:00   KST (GMT +9) 		March 12, 2019 3일
Mar 12-14 		Live Seoul , South Korea Korean 900000   KRW Register  ›
March 5, 2019
08:30 - 17:00   PST (GMT -8) 		March 5, 2019 3 days
Mar 5-7 		Live San Jose , California , United States English Subscription Only Register  ›
May 7, 2019
08:30 - 17:00   PST (GMT -8) 		May 7, 2019 3 days
May 7-9 		Live San Jose , California , United States English Subscription Only Register  ›
May 13, 2019
16:00 - 18:00   EST (GMT -5) 		May 13, 2019 10 sessions
May 13-17, 20-24 		Virtual Virtual - WebEx English Subscription Only Register  ›

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