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Autodesk Fusion 360 Essentials Training

This course is an introduction to 3D design for Fusion 360.
The course consists of +1 day training that will take place after 4-6 weeks following 3 days of basic training. Thus, it is ensured that the participants spend enough time with the software during this period and accumulate possible questions until the last day of the training.
Participants will be able to design medium and complex parts and assemblies, alongside create design documentation and visuals.

Course Requirement:
• Basic use of Microsoft® Windows®
• Preferably technical drawing and design experience
• Preferably AutoCAD knowledge
Participants who complete this course can participate in our certification exam preparation training to be successful in Autodesk Fusion 360 ACU exam and become “Autodesk Certified” recognized by the industry worldwide.

Duration:
62 hours (16 days)
Who should attend?
CAD users who are familiar with Fusion 360 design environment and have essential engineering skills.

1.Beginning
  • Turning Fusion 360 on and off

  • Fusion 360 File Types

  • User Interface

2.Data and Projects
  • Working With Versions

  • Working Offline

  • Design History

  • Version Control

  • Sharing Live Content for Calloboration

3. Introduction to Modeling
  • 2D Sketch Creation and Design Moves

  • Dimensions, Limitations and Design Structure

  • Creating 3D Model From a 2D Sketch

  • Parametric and Direct Modeling

  • Advanced Modeling Techniques

4.Assembly
  • Differences Between Body and Component

  • Designing in Assembly

  • Converting Bodies Into Components

  • Creating a Joint in an Assembly

  • Ready Parts Catalogs and Libraries

5.Freefrom and Patch Enviroment
  • Creating and Editing Freeform Body 

  • Reference Image Usage

  • Convert Freeform Body to Solid Body

6.Sheet Metal Modeling
  • Creating And Editing Sheet Metal Rules

  • Unfoldings

  • Creating an Unfolding in DXF Format

7.Introduction to CAM Enviroment
  • Cam Project Settings

  • Tool Library

  • 2D and 3D Toolpaths and Simulation

8. Render and Animation
  • Rendering, Applying View and Scenes

  • Animating With Presentations and Exploded Views

9.Simulation
  • Simulation Types

  • Shape Optimization Envoriment

  • Generative Design Envoriment

10. Technical Drawing
  • Creating Views

  • Dimension

  • BOM Lists

Fusion 360 Generative Design gives users the ability to analytically engineer component models that adhere to multiple designs and manufacturing constraints, which are optimized for Additive Manufacturing Processes.
To use this tool to its fullest potential, a sound understanding of how it fits into the overall workflow of initial design through manufacturing.
This course will give users the opportunity to explore these workflows, and in doing so, gain a good understanding of a successful generative design process.

• Generative design solution approach
• Model preparation:
• Cleaning model
• Preparing preserve geometries, obstacles or starting shape
• Creating connector obstacles
• Design space initialization:
• Preserve geometry assignment
• Obstacle geometry assignment
• Staring shape assignment
• Boundary conditions settings:
• Setting structural constraints
• Setting structural loads
• Design criteria settings:
• Setting design objectives
• Selecting manufacturing methods
• Study materials settings
• Generating model
• Exploring generative results

Autodesk Fusion 360 Essentials Training

In this course, participants will learn about Static Stress and Non-Linear Static Stress Studies of Simulation Workspace within Fusion 360.
In this 8-hour course, participants will progress setting up Stress Analysis Study Cases.
Following the completion of this course participants will become more familiar with the linear and non-linear stress simulations which have moderate complexity.

• Understanding which purpose these simulation types can be used in
• Model and case simplification approach
• Study materials management and settings
• Boundary conditions settings:
• Assigning constraints and rigid body connectors
• Defining loads
• Contacts
• Mesh controls
• Viewing results and generating a report

Autodesk Fusion 360 Simulation

Linear & Non-Linear Static Stress

In this course, participants will learn about Modal Analysis and Structural Buckling Studies of Simulation Workspace within Fusion 360.
In this 4-hour course, participants will progress setting up Modal and Buckling Analysis Study Cases.
Following the completion of this course, participants will become more familiar with the Modal and Buckling Simulations which have low-level complexity.

• Understanding which purpose these simulation types can be used in
• Model and case simplification approach
• Setting the number of mode calculation and frequency range
• Study materials management and settings
• Boundary conditions settings:
• Assigning constraints and rigid body connectors
• Defining loads
• Contacts
• Mesh controls
• Viewing results and generating a report

Autodesk Fusion 360 Simulation

Modal Frequencies

Structural Buckling

In this course, participants will learn about Thermal and Thermal Stresses Studies of Simulation Workspace within Fusion 360.
In this 4-hour course, participants will progress from Thermal Boundary Conditions to setting up Thermal and Thermal Stresses Analysis Study Cases.
Following the completion of this course participants will become more familiar with the Thermal and Thermal Stresses simulations which have low-level complexity.

• Understanding Which Purpose These Simulation Types Can Be Used In
• Model and Case Simplification Approach
• Study Materials Management and Settings
• Boundary Conditions Settings:
• Assigning Constraints and Rigid Body Connectors
• Defining Structural Loads
• Defining Thermal Loads
• Contacts
• Mesh Controls
• Viewing Results and Generating Report

Autodesk Fusion 360 Simulation

Thermal

Thermal Stresses

In this course, participants will learn about Shape Optimization Studies of Simulation Workspace within Fusion 360.
In this 2-hour course, participants will progress from setting up Shape Optimization Study Case to promoting results.
Following the completion of this course participants will become more familiar with the Shape Optimization Studies which have low-level complexity.

• Understanding which purpose this optimization method can be used in
• Model and case simplification approach
• Study materials management and settings
• Boundary conditions settings:
• Assigning constraints and rigid body connectors
• Defining loads
• Contacts
• Setting preserve regions
• Setting shape optimization criteria
• Mesh controls
• Viewing results and generating a report
• Promoting the optimization results

Autodesk Fusion 360 Simulation

Shape Optimization

In this course, participants will learn about Event Simulation Studies of Simulation Workspace within Fusion 360.
In this 4-hour course, participants will make progress from setting up Event Simulation Study Case to Animating Response.
Following the completion of this course participants will become more familiar with the Event Simulation Studies which have moderate complexity.

• Understanding which purpose this simulation type can be used in
• Model and case simplification approach
• Study materials management and settings
• Boundary conditions settings:
• Assigning constraints and rigid body connectors
• Defining static loads
• Defining transient loads
• Defining prescribed displacement
• Contacts
• Mesh controls
• Viewing results and generating event animation and
report

Autodesk Fusion 360 Simulation

Event Simulation

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