You're reading from Making Your CAM Journey Easier with Fusion 360 Learn the basics of turning, milling, laser cutting, and 3D printing

Product type Paperback

Published in Mar 2023

Publisher Packt

ISBN-13 9781804612576

Length 464 pages

Edition 1st Edition

Tools

Autodesk Fusion 360

Concepts

3D Printing

Author (1):

Fabrizio Cimo

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Table of Contents (26) Chapters

Preface

1. Part 1 – Implementing Turning Operations in Fusion 360

2. Chapter 1: Getting Started with Turning and Its Tools FREE CHAPTER

3. Chapter 2: Handling Part Setup for Turning

4. Chapter 3: Discovering the Tool Library and Custom Tools

5. Chapter 4: Implementing Our First Turning Operation

6. Chapter 5: Discovering More Turning Strategies

7. Part 2 – Milling with Fusion 360

8. Chapter 6: Getting Started with Milling and Its Tools

9. Chapter 7: Optimizing the Shape of Milled Parts to Avoid Design Flaws

10. Chapter 8: Part Handling and Part Setup for Milling

11. Chapter 9: Implementing Our First Milling Operations

12. Chapter 10: Machining the Second Placement

13. Part 3 – Laser Cutting Using Fusion 360

14. Chapter 11: Getting Started with Laser Cutting

15. Chapter 12: Nesting Parts for Laser Cutting

16. Chapter 13: Creating Our First Laser Cutting Operation

17. Part 4 – Using Fusion 360 for Additive Manufacturing

18. Chapter 14: Getting Started with Additive Manufacturing

19. Chapter 15: Managing the Limitations of FDM Printers

20. Chapter 16: Printing Our First Part

21. Chapter 17: Understanding Advanced Printing Settings

22. Part 5 – Testing Our Knowledge

23. Chapter 18: Quiz

24. Index

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Understanding anisotropies of the printed part

FDM prints feature anisotropies along the printing direction. Typically, the mechanical strength between stacked layers is weaker than the strength in other directions; therefore, the higher loads should always be applied along the layers, not perpendicular to them.

We should always consider these anisotropies when studying part placement, especially if we are about to print a functional prototype that will be loaded by forces and deformations. Let’s take the following component as an example; this part is similar to a circlip ring and will act a bit like a spring:

Figure 15.7: Another example of different printing orientations

As you can see, there are two different part placements for this part; the first one on the left features the part standing up, while the second shows the part laid on its side.

Both part placements are feasible from a printing perspective. However, since this is a component...