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[[Category:Training]] | |||
=Online Maker Training through LinkedIn Learning = | |||
Kacie Hultgren | LinkedIn Learning (formerly Lynda.com) is a leading provider of online training video courses. The entire LinkedIn Learning library is available to the UMD community at no charge. While many of the LinkedIn Learning courses are focused on learning business applications such as Microsoft Excel or Google Sheets, there are a number of training modules on maker-related subjsts like 3d modeling in Autodesk Fusion 360, Designining for 3d Printing, and others. | ||
To make use of LinkedIn Learning training material, you need to log in using your UMD directory ID and authenticate through the UMD sign on page. Since this material is somewhat hidden away, we've added this page to list LinkedIn Learning classes and videos that may be of interest. This page consists almost entirely of content taken from the LinkedIn Learning site and links directly to that site for viewing the lessons. | |||
== Learning Related to Sandbox Prototyping Studio == | |||
===''Course:'' Design for Additive Manufacturing: FDM=== | |||
INSTRUCTOR: Kacie Hultgren | |||
Length: 1h 47m | |||
Level: 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==== | |||
<div style="column-count:2;-moz-column-count:2;-webkit-column-count:2"> | |||
* 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 | |||
</div> | |||
<!--- | |||
====Course Outline==== | |||
Introduction | |||
=====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/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) ] | |||
=====2. CAD and CAM===== | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/cad-vs-cam?autoplay=true CAD vs. CAM (2m 27s) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/cam-basics-in-cura?autoplay=true CAM basics in Cura (7m 5s) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/cam-basics-in-makerbot-print?autoplay=true CAM basics in MakerBot Print (5m 52s) ] | |||
*[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===== | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/exploring-build-plate-surfaces?autoplay=true Exploring build plate surfaces (2m 12s) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/exploring-build-plate-adhesion?autoplay=true Exploring build plate adhesion (2m 53s) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/understanding-overhangs-and-support?autoplay=true Understanding overhangs and support (2m 50s) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/creating-supportless-designs?autoplay=true Creating supportless designs (1m 40s) ] | |||
=====4. Features and Options===== | |||
*[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) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/optimizing-line-width?autoplay=true Optimizing line width (3m 33s)] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/understanding-layer-height-and-resolution?autoplay=true Understanding layer height and resolution (2m 52s) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/creating-small-details?autoplay=true Creating small details (1m 28s) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/achieving-accuracy-and-fit?autoplay=true Achieving accuracy and fit (2m 10s) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/planning-for-strength-and-flexibility?autoplay=true Planning for strength and flexibility (1m 20s) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/exploring-color-options?autoplay=true Exploring color options (1m 50s) ] | |||
=====5. Optimizing with Cura===== | |||
*[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) ] | |||
*[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) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/small-details?autoplay=true Small details (57s) ] | |||
=====6. Optimizing with MakerBot===== | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/support-material-and-rafts?autoplay=true Support material and rafts (1m 43s) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/line-width-and-wall-thickness?autoplay=true Line width and wall thickness (59s) ] | |||
*[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===== | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/designing-assemblies?autoplay=true Designing assemblies (3m 46s) ] | |||
*[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===== | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/setting-up-your-project?autoplay=true Setting up your project (1m 3s) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/sketching-the-box?autoplay=true Sketching the box (2m 59s) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/navigation-basics?autoplay=true Navigation basics (58s) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/modeling-the-box?autoplay=true Modeling the box (3m 41s) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/sketching-the-hinge?autoplay=true Sketching the hinge (3m 39s) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/modeling-the-hinge?autoplay=true Modeling the hinge (3m 16s) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/separating-the-knuckles?autoplay=true Separating the knuckles (7m 42s) ] | |||
*[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) ] | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/3d-printing-with-cura?autoplay=true 3D printing with Cura (2m 56s) ] | |||
*[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===== | |||
*[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/next-steps?autoplay=true Next steps (41s) ] | |||
---> | |||
====Course Outline==== | |||
<div style="column-count:3;-moz-column-count:3;-webkit-column-count:3"> | |||
Introduction | Introduction | ||
| Line 12: | Line 155: | ||
1. FDM Basics | 1. FDM Basics | ||
* [https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/design-for-manufacturing?autoplay=true | *[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 | *[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 | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/thermoplastics?autoplay=true Thermoplastics (4m 36s) ] | ||
2. CAD and CAM | 2. CAD and CAM | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/cad-vs-cam?autoplay=true CAD vs. CAM (2m 27s) ] | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/cam-basics-in-cura?autoplay=true CAM basics in Cura (7m 5s) ] | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/cam-basics-in-makerbot-print?autoplay=true CAM basics in MakerBot Print (5m 52s) ] | ||
* | *[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 | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/exploring-build-plate-surfaces?autoplay=true Exploring build plate surfaces (2m 12s) ] | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/exploring-build-plate-adhesion?autoplay=true Exploring build plate adhesion (2m 53s) ] | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/understanding-overhangs-and-support?autoplay=true Understanding overhangs and support (2m 50s) ] | ||
* | *[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 | ||
* | *[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) ] | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/optimizing-line-width?autoplay=true Optimizing line width (3m 33s)] | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/understanding-layer-height-and-resolution?autoplay=true Understanding layer height and resolution (2m 52s) ] | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/creating-small-details?autoplay=true Creating small details (1m 28s) ] | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/achieving-accuracy-and-fit?autoplay=true Achieving accuracy and fit (2m 10s) ] | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/planning-for-strength-and-flexibility?autoplay=true Planning for strength and flexibility (1m 20s) ] | ||
* | *[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 | ||
* | *[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) ] | ||
* | *[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) ] | ||
* | *[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 | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/support-material-and-rafts?autoplay=true Support material and rafts (1m 43s) ] | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/line-width-and-wall-thickness?autoplay=true Line width and wall thickness (59s) ] | ||
* | *[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 | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/designing-assemblies?autoplay=true Designing assemblies (3m 46s) ] | ||
* | *[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 | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/setting-up-your-project?autoplay=true Setting up your project (1m 3s) ] | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/sketching-the-box?autoplay=true Sketching the box (2m 59s) ] | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/navigation-basics?autoplay=true Navigation basics (58s) ] | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/modeling-the-box?autoplay=true Modeling the box (3m 41s) ] | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/sketching-the-hinge?autoplay=true Sketching the hinge (3m 39s) ] | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/modeling-the-hinge?autoplay=true Modeling the hinge (3m 16s) ] | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/separating-the-knuckles?autoplay=true Separating the knuckles (7m 42s) ] | ||
* | *[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) ] | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/3d-printing-with-cura?autoplay=true 3D printing with Cura (2m 56s) ] | ||
* | *[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 | ||
* | *[https://www.linkedin.com/learning/design-for-additive-manufacturing-fdm/next-steps?autoplay=true Next steps (41s) ] | ||
</div> | |||
<!--- | |||
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 | ||
| Line 144: | Line 289: | ||
* Product Design | * Product Design | ||
] | |||
* | *[https://www.linkedin.com/learning/search?keywords=Rapid%20Prototyping Rapid Prototyping | ||
[https://www.linkedin.com/learning/search?keywords=Rapid%20Prototyping | ] | ||
* | *[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] | ||
* | *[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 | ||
| Line 183: | Line 328: | ||
Multidisciplinary Designer | Multidisciplinary Designer | ||
Related | ---> | ||
===Course: Learning 3D Printing=== | |||
Length: 1h 16m | |||
[https://www.linkedin.com/learning/learning-3d-printing Learning 3D Printing] | |||
===''Course'': Rapid Prototyping for Product Design=== | |||
Length: 1h 38m | |||
[https://www.linkedin.com/learning/rapid-prototyping-for-product-design Rapid Prototyping for Product Design] | |||
===''Course'': Design Foundations: Physical Materials=== | |||
Length: 1h 31m | |||
[https://www.linkedin.com/learning/design-foundations-physical-materials Design Foundations: Physical Materials] | |||
===Course: Additive Manufacturing: Optimizing 3D Prints=== | |||
Length: 1h 27m | |||
[https://www.linkedin.com/learning/additive-manufacturing-optimizing-3d-prints-2 Additive Manufacturing: Optimizing 3D Prints] | |||
===''Course'': Additive Manufacturing: Short Run Production=== | |||
Length: 1h | |||
[https://www.linkedin.com/learning/additive-manufacturing-short-run-production Additive Manufacturing: Short Run Production] | |||
== Learning Related to Sandbox Digital Media Studio == | |||
Course: | ===''Course:'' Making Video 2: Teach Something=== | ||
[https://www.linkedin.com/learning/making-video-2-teach-something/welcome Making Video 2: Teach Something] | |||
===''Course:'' Learning Video Production and Editing=== | |||
[https://www.linkedin.com/learning/learning-video-production-and-editing-3/ Learning Video Production and Editing] | |||
Learning | |||
[https://www.linkedin.com/learning/learning- | |||
===''Course:'' Creating and Deploying Microlearning === | |||
====Course details==== | |||
Length: 1h 1m | |||
Level: Beginner | |||
Released: 10/5/2018 | |||
Feel like you can't capture the attention of your learners? Get to the next level of engagement with microlearning. Microlearning is more than just short educational videos. It's a system of training that places emphasis on providing the right content to the learner at the right time, in an easy-to-use format. In this course, Chris Mattia explores how to create and deploy microlearning that will provide employees and students with the training they need where they can use it the most—on their mobile devices. Learn how to develop engaging assets, including everything from infographics and podcasts to memes and GIFs, and track the effectiveness of your microlearning campaigns to see what content is getting the most attention. | |||
Learning objectives | |||
* | * Is microlearning right for your organization? | ||
* Developing a microlearning strategy | |||
* Assessing what students have learned | |||
* Creating lessons with infographics and animated GIFs | |||
* Creating lessons with audio and video | |||
* Deploying lessons to mobile devices | |||
* Leveraging social media | |||
* Tracking engagement and effectiveness | |||
[https://www.linkedin.com/learning/creating-and-deploying-microlearning/is-microlearning-the-right-strategy-for-you Creating and Deploying Microlearning] | |||
== Learning Related to Autodesk Fusion 360 3d Modeling Software == | |||
===Course: Fusion 360: Basic Part Modeling=== | |||
By: Vladimir Mariano o Updated Dec 16, 2019 | |||
Learn how to measure and model real-world objects so you can create parts that are manufacture-ready. | |||
Course: | ===Course: Fusion 360: Multi-Body Modeling=== | ||
47m | |||
Course Fusion 360: Multi-Body Modeling o By: Jomarc Baquiran o Released Aug 2, 2018 Learn techniques for modeling complex components in Fusion 360, specifically modeling multiple bodies in a single design file. o 2,607 viewers * | |||
COURSE Course | ===Course: Fusion 360: Surfacing with the Patch Workspace=== | ||
1h 22m Preview COURSE Course Fusion 360: Surfacing with the Patch Workspace | |||
o By: Jomarc Baquiran o Released Nov 17, 2017 Learn to use the surfacing tools in the Autodesk Fusion 360 Patch workspace to design complex organic shapes and water-tight solid bodies like the plastic bottles in this course. | |||
===Course: Fusion 360: Animating Assemblies=== | |||
* | 1h 7m Preview COURSE Course Fusion 360: Animating Assemblies o By: Jomarc Baquiran o Released Jun 19, 2018 Learn how to create animations for your product assemblies in Fusion 360. o 1,953 viewers * | ||
===Course: Fusion 360: Product Rendering Techniques=== | |||
Course: | 1h 52m Course Fusion 360: Product Rendering Techniques o By: Jomarc Baquiran o Released Apr 5, 2018 Learn how to create realistic and engaging product renderings in Autodesk Fusion 360. o 2,530 viewers * | ||
===Course: Fusion 360: 3D Printed Product Enclosure=== | |||
COURSE Course | 1h 58m Preview COURSE Course Fusion 360: 3D Printed Product Enclosure o By: Vladimir Mariano o Updated Dec 16, 2019 Learn how to design product enclosures to manufacture a 3D printing of the design using Autodesk Fusion 360. o 7,135 viewers * | ||
===Course: Fusion 360: Designing for Plastics (2017)=== | |||
* | 56m Preview COURSE Course Fusion 360: Designing for Plastics (2017) o By: Thom Tremblay o Released Nov 9, 2017 Learn about designing for additive manufacturing in plastic using Fusion 360. Discover how to create a form, complete and visualize your design, and set it up for 3D printing. o 4,500 viewers * | ||
===Course: Fusion 360: Designing for Metal (2017)=== | |||
1h 23m Preview COURSE Course Fusion 360: Designing for Metal (2017) o By: Thom Tremblay o Released Nov 13, 2017 Use Fusion 360—the cloud-powered, accessible CAM tool—to create effective designs for subtractive manufacturing (such as CNC milling) in metal. | |||
Latest revision as of 22:59, 2 June 2020
Online Maker Training through LinkedIn Learning
LinkedIn Learning (formerly Lynda.com) is a leading provider of online training video courses. The entire LinkedIn Learning library is available to the UMD community at no charge. While many of the LinkedIn Learning courses are focused on learning business applications such as Microsoft Excel or Google Sheets, there are a number of training modules on maker-related subjsts like 3d modeling in Autodesk Fusion 360, Designining for 3d Printing, and others.
To make use of LinkedIn Learning training material, you need to log in using your UMD directory ID and authenticate through the UMD sign on page. Since this material is somewhat hidden away, we've added this page to list LinkedIn Learning classes and videos that may be of interest. This page consists almost entirely of content taken from the LinkedIn Learning site and links directly to that site for viewing the lessons.
Learning Related to Sandbox Prototyping Studio
Course: Design for Additive Manufacturing: FDM
INSTRUCTOR: Kacie Hultgren
Length: 1h 47m Level: 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
Course: Learning 3D Printing
Length: 1h 16m
Course: Rapid Prototyping for Product Design
Length: 1h 38m
Rapid Prototyping for Product Design
Course: Design Foundations: Physical Materials
Length: 1h 31m
Design Foundations: Physical Materials
Course: Additive Manufacturing: Optimizing 3D Prints
Length: 1h 27m
Additive Manufacturing: Optimizing 3D Prints
Course: Additive Manufacturing: Short Run Production
Length: 1h
Additive Manufacturing: Short Run Production
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Course: Creating and Deploying Microlearning
Course details
Length: 1h 1m
Level: Beginner
Released: 10/5/2018
Feel like you can't capture the attention of your learners? Get to the next level of engagement with microlearning. Microlearning is more than just short educational videos. It's a system of training that places emphasis on providing the right content to the learner at the right time, in an easy-to-use format. In this course, Chris Mattia explores how to create and deploy microlearning that will provide employees and students with the training they need where they can use it the most—on their mobile devices. Learn how to develop engaging assets, including everything from infographics and podcasts to memes and GIFs, and track the effectiveness of your microlearning campaigns to see what content is getting the most attention.
Learning objectives
- Is microlearning right for your organization?
- Developing a microlearning strategy
- Assessing what students have learned
- Creating lessons with infographics and animated GIFs
- Creating lessons with audio and video
- Deploying lessons to mobile devices
- Leveraging social media
- Tracking engagement and effectiveness
Creating and Deploying Microlearning
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