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Contents
===Design for Additive Manufacturing: FDM===
 
INSTRUCTOR: Kacie Hultgren
 
1h 47m Beginner + Intermediate Released: 1/18/2018
 
Fused deposition modeling (FDM), also known as fused filament
fabrication (FFF), is a common type of 3D printing. Whether you are
using FDM for prototyping or producing end-use parts, a design for
manufacturing process will ensure your parts are easy to manufacture on
FDM printers. Join Kacie Hultgren for a comprehensive overview of FDM
design principles. Optimize your parts by understanding key concepts
like orientation, tolerance, and support material. Learn how to use
programs such as Cura and MakerBot Print to visualize your design before
3D printing, and achieve accuracy, fit, and strength. In chapter eight,
Kacie uses Fusion 360 to take you step by step through a sample
project—a hinged box—that puts these design strategies into action.
 
====Learning objectives====
 
* What is FDM?
* Thermoplastics and FDM
* CAD and CAM
* Creating supportless designs
* Optimizing for orientation
* Achieving accuracy and fit
* Visualizing your design with Cura and MakerBot Print
* Designing assemblies
* Working with Fusion 360
* 3D printing your design


Design for Additive Manufacturing: FDM


INSTRUCTOR


Kacie Hultgren


====Course Outline====


Introduction
Introduction


1. FDM Basics
=====1. FDM Basics=====


* [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/design-for-manufacturing?autoplay=true Design for manufacturing (2m  11s)]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/design-for-manufacturing?autoplay=true Design for manufacturing (2m  11s) ]


* [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/what-is-fdm?autoplay=true What is FDM? (2m  32s)]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/what-is-fdm?autoplay=true What is FDM? (2m  32s) ]


* [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/thermoplastics?autoplay=true Thermoplastics (4m  36s)]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/thermoplastics?autoplay=true Thermoplastics (4m  36s) ]


2. CAD and CAM
=====2. CAD and CAM=====


* CAD vs. CAM (2m  27s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/cad-vs-cam?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/cad-vs-cam?autoplay=true CAD vs. CAM (2m  27s)  ]


* CAM basics in Cura (7m  5s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/cam-basics-in-cura?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/cam-basics-in-cura?autoplay=true CAM basics in Cura (7m  5s) ]


* CAM basics in MakerBot Print (5m  52s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/cam-basics-in-makerbot-print?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/cam-basics-in-makerbot-print?autoplay=true CAM basics in MakerBot Print (5m  52s) ]


* Using third-party GCode Viewer (1m  50s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/using-third-party-gcode-viewer?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/using-third-party-gcode-viewer?autoplay=true Using third-party GCode Viewer (1m  50s) ]


3. Bases and Supports
=====3. Bases and Supports=====


* Exploring build plate surfaces (2m  12s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/exploring-build-plate-surfaces?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/exploring-build-plate-surfaces?autoplay=true Exploring build plate surfaces (2m  12s) ]


* Exploring build plate adhesion (2m  53s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/exploring-build-plate-adhesion?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/exploring-build-plate-adhesion?autoplay=true Exploring build plate adhesion (2m  53s) ]


* Understanding overhangs and support (2m  50s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/understanding-overhangs-and-support?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/understanding-overhangs-and-support?autoplay=true Understanding overhangs and support (2m  50s) ]


* Creating supportless designs (1m  40s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/creating-supportless-designs?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/creating-supportless-designs?autoplay=true Creating supportless designs (1m  40s) ]


4. Features and Options
=====4. Features and Options=====


* The body of a 3D print (3m  4s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/the-body-of-a-3d-print?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/the-body-of-a-3d-print?autoplay=true The body of a 3D print (3m  4s) ]


* Optimizing line width (3m  33s)[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/optimizing-line-width?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/optimizing-line-width?autoplay=true Optimizing line width (3m  33s)]


* Understanding layer height and resolution (2m  52s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/understanding-layer-height-and-resolution?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/understanding-layer-height-and-resolution?autoplay=true Understanding layer height and resolution (2m  52s) ]


* Creating small details (1m  28s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/creating-small-details?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/creating-small-details?autoplay=true Creating small details (1m  28s) ]


* Achieving accuracy and fit (2m  10s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/achieving-accuracy-and-fit?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/achieving-accuracy-and-fit?autoplay=true Achieving accuracy and fit (2m  10s) ]


* Planning for strength and flexibility (1m  20s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/planning-for-strength-and-flexibility?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/planning-for-strength-and-flexibility?autoplay=true Planning for strength and flexibility (1m  20s) ]


* Exploring color options (1m  50s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/exploring-color-options?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/exploring-color-options?autoplay=true Exploring color options (1m  50s) ]


5. Optimizing with Cura
=====5. Optimizing with Cura=====


* Support material and build plate adhesion (4m) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/support-material-and-build-plate-adhesion?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/support-material-and-build-plate-adhesion?autoplay=true Support material and build plate adhesion (4m) ]


* Shells, infill, top, and bottom layers (2m  49s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/shells-infill-top-and-bottom-layers?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/shells-infill-top-and-bottom-layers?autoplay=true Shells, infill, top, and bottom layers (2m  49s) ]


* Small details (57s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/small-details?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/small-details?autoplay=true Small details (57s) ]


6. Optimizing with MakerBot
=====6. Optimizing with MakerBot=====


* Support material and rafts (1m  43s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/support-material-and-rafts?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/support-material-and-rafts?autoplay=true Support material and rafts (1m  43s) ]


* Line width and wall thickness (59s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/line-width-and-wall-thickness?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/line-width-and-wall-thickness?autoplay=true Line width and wall thickness (59s) ]


* Shells, infill, roofs, and floors (2m  44s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/shells-infill-roofs-and-floors?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/shells-infill-roofs-and-floors?autoplay=true Shells, infill, roofs, and floors (2m  44s) ]


7. Assemblies
=====7. Assemblies=====


* Designing assemblies (3m  46s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/designing-assemblies?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/designing-assemblies?autoplay=true Designing assemblies (3m  46s) ]


* Print in place strategies (1m  51s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/print-in-place-strategies?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/print-in-place-strategies?autoplay=true Print in place strategies (1m  51s) ]


8. Design a Hinged Box
=====8. Design a Hinged Box=====


* Setting up your project (1m  3s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/setting-up-your-project?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/setting-up-your-project?autoplay=true Setting up your project (1m  3s) ]


* Sketching the box (2m  59s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/sketching-the-box?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/sketching-the-box?autoplay=true Sketching the box (2m  59s) ]


* Navigation basics (58s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/navigation-basics?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/navigation-basics?autoplay=true Navigation basics (58s) ]


* Modeling the box (3m  41s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/modeling-the-box?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/modeling-the-box?autoplay=true Modeling the box (3m  41s) ]


* Sketching the hinge (3m  39s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/sketching-the-hinge?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/sketching-the-hinge?autoplay=true Sketching the hinge (3m  39s) ]


* Modeling the hinge (3m  16s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/modeling-the-hinge?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/modeling-the-hinge?autoplay=true Modeling the hinge (3m  16s) ]


* Separating the knuckles (7m  42s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/separating-the-knuckles?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/separating-the-knuckles?autoplay=true Separating the knuckles (7m  42s) ]


* Creating components and assembling a joint (2m  15s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/creating-components-and-assembling-a-joint?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/creating-components-and-assembling-a-joint?autoplay=true Creating components and assembling a joint (2m  15s) ]


* 3D printing with Cura (2m  56s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/3d-printing-with-cura?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/3d-printing-with-cura?autoplay=true 3D printing with Cura (2m  56s) ]


* 3D printing with MakerBot Print (3m  33s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/3d-printing-with-makerbot-print?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/3d-printing-with-makerbot-print?autoplay=true 3D printing with MakerBot Print (3m  33s) ]


Conclusion
=====Conclusion=====


* Next steps (41s) [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/next-steps?autoplay=true]
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/next-steps?autoplay=true Next steps (41s) ]




<!---
RELATED TO THIS COURSE
RELATED TO THIS COURSE


*
*[https://www.linkedin.com/learning/search?keywords=Product%20Design


Exercise Files See all
Exercise Files See all
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* Product Design
* Product Design
[https://www.linkedin.com/learning/search?keywords=Product%20Design]
]


* Rapid Prototyping
*[https://www.linkedin.com/learning/search?keywords=Rapid%20Prototyping Rapid Prototyping
[https://www.linkedin.com/learning/search?keywords=Rapid%20Prototyping]
]


* FDM [https://www.linkedin.com/learning/search?keywords=FDM]
*[https://www.linkedin.com/learning/search?keywords=FDM  FDM ]
* Modeling
* Modeling
[https://www.linkedin.com/learning/search?keywords=Modeling]
[https://www.linkedin.com/learning/search?keywords=Modeling]
* 3D Modeling
*[https://www.linkedin.com/learning/search?keywords=3D%20Modeling 3D Modeling
[https://www.linkedin.com/learning/search?keywords=3D%20Modeling]
]


Viewers of this course
Viewers of this course


raz soffer Filippo Scarpetta Jayapal Koli
raz soffer Filippo Scarpetta Jayapal Koli
*4,567 members* like this course
*[https://www.linkedin.com/learning/instructors/kacie-hultgren?u=41910388 4,567 members* like this course
*13,560* people watched this course
*13,560* people watched this course


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Multidisciplinary Designer  
Multidisciplinary Designer  


[https://www.linkedin.com/learning/instructors/kacie-hultgren?u=41910388]
]


Related courses
Related courses
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[https://www.linkedin.com/learning/learning-3d-printing?u=41910388]
[https://www.linkedin.com/learning/learning-3d-printing?u=41910388]


* 18,352 viewers
*[https://www.linkedin.com/learning/rapid-prototyping-for-product-design?u=41910388  18,352 viewers


*
*
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1h 38m
1h 38m
[https://www.linkedin.com/learning/rapid-prototyping-for-product-design?u=41910388]
]


COURSE Course POPULAR
COURSE Course POPULAR
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[https://www.linkedin.com/learning/rapid-prototyping-for-product-design?u=41910388]
[https://www.linkedin.com/learning/rapid-prototyping-for-product-design?u=41910388]


* 17,686 viewers
*[https://www.linkedin.com/learning/design-foundations-physical-materials?u=41910388  17,686 viewers


*
*
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1h 31m
1h 31m
[https://www.linkedin.com/learning/design-foundations-physical-materials?u=41910388]
]


COURSE Course
COURSE Course
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[https://www.linkedin.com/learning/design-foundations-physical-materials?u=41910388]
[https://www.linkedin.com/learning/design-foundations-physical-materials?u=41910388]


* 4,529 viewers
*[https://www.linkedin.com/learning/additive-manufacturing-optimizing-3d-prints-2?u=41910388  4,529 viewers


*
*
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1h 27m
1h 27m
[https://www.linkedin.com/learning/additive-manufacturing-optimizing-3d-prints-2?u=41910388]
]


COURSE Course
COURSE Course
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[https://www.linkedin.com/learning/additive-manufacturing-optimizing-3d-prints-2?u=41910388]
[https://www.linkedin.com/learning/additive-manufacturing-optimizing-3d-prints-2?u=41910388]


* 2,467 viewers
*[https://www.linkedin.com/learning/additive-manufacturing-short-run-production?u=41910388  2,467 viewers


*
*
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1h
1h
[https://www.linkedin.com/learning/additive-manufacturing-short-run-production?u=41910388]
]


COURSE Course
COURSE Course
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In this video
In this video
--->

Revision as of 23:15, 29 May 2020

Design for Additive Manufacturing: FDM

INSTRUCTOR: Kacie Hultgren

1h 47m Beginner + Intermediate Released: 1/18/2018

Fused deposition modeling (FDM), also known as fused filament fabrication (FFF), is a common type of 3D printing. Whether you are using FDM for prototyping or producing end-use parts, a design for manufacturing process will ensure your parts are easy to manufacture on FDM printers. Join Kacie Hultgren for a comprehensive overview of FDM design principles. Optimize your parts by understanding key concepts like orientation, tolerance, and support material. Learn how to use programs such as Cura and MakerBot Print to visualize your design before 3D printing, and achieve accuracy, fit, and strength. In chapter eight, Kacie uses Fusion 360 to take you step by step through a sample project—a hinged box—that puts these design strategies into action.

Learning objectives

  • What is FDM?
  • Thermoplastics and FDM
  • CAD and CAM
  • Creating supportless designs
  • Optimizing for orientation
  • Achieving accuracy and fit
  • Visualizing your design with Cura and MakerBot Print
  • Designing assemblies
  • Working with Fusion 360
  • 3D printing your design



Course Outline

Introduction

1. FDM Basics
2. CAD and CAM
3. Bases and Supports
4. Features and Options
5. Optimizing with Cura
6. Optimizing with MakerBot
7. Assemblies
8. Design a Hinged Box
Conclusion


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