Buch, Englisch, 310 Seiten, Format (B × H): 155 mm x 235 mm, Gewicht: 505 g
ISBN: 978-1-4842-3500-3
Verlag: Apress
Take your existing programs to the next level with Mastering 3D Printing in the Classroom, Library, and Lab. Organized in a way that is readable and easy to understand, this book is your guide to the many technology options available now in both software and hardware, as well as a compendium of practical use cases and a discussion of how to create experiences that will align with curriculum standards.
You'll examine the whole range of working with a 3D printer, from purchase decision to curriculum design. Finally this book points you forward to the digital-fabrication future current students will face, discussing how key skills can be taught as cost-effectively as possible.
What You’ll Learn
- Discover what is really involved with using a 3D printer in a classroom, library, lab, or public space
- Review use cases of 3D printers designed to enhance student learning and to make practical parts, from elementary school through university research lab
- Look at career-planning directions in the emerging digital fabrication arena
- Work with updated tools, hardware, and software for 3D printing
Educators of all levels, both formal (classroom) and informal (after-school programs, libraries, museums).
Zielgruppe
Professional/practitioner
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
Introduction
Section 1. 3D Printing: State of the Art
Chapter 1. When to Use a 3D Printer• General considerationso Subtractive vs. additive manufacturing• When 3D Printing is Not Appropriateo When a laser cutter is bettero When a CNC router is bettero Traditional craft tools and materials vs. 3D printing Speed Expense Digital Fabricationo Prototyping parts Big Small
Chapter 2. 3D printer types and Materials• FDMo With PLAo ABSo More exotic materials, fills, composites• Resin SLA• Powder and other technologies• Bioprinting/paste printing• Printing living tissue (bioprinting, Organovo)• Overview of metal technologies, speculation on near-term evolution
Chapter 3. 3D printer workflow and software• Workflow overview• Different types of slicers/modelerso MatterControl 2.0o Ultimaker Cura 3.0o Cura 15.xo Slic3r 2.0o Simplify3Do Proprietary workflows• Brief intro to CAD (more in later chapter)
Section 2. Buying and Setting up Printers
Chapter 4. 3D Printing Technical Issues: Comparing Technologies• Anticipating who will use ito Artists, functional parts (robotics), student designs• What to buy? Comparison charts of different technologies• Why you want an open-source filament printer• Size of print, print timeo I have 30 students. What do I do? (refer to curriculum)• What does 3D printer “resolution” mean?• Postprocessing• Using 3Dhubs or other services instead
Chapter 5. Living with your 3D printer• Getting the most out of a cheap consumer printer• Where should we put it?o Carts vs. makerspaceso Storing filamento Ventilationo Dusto Ancillary toolso Postprocessing tools and space• Preventative maintenance• Staff and user training• Requesting sample parts• Freely-available test results• Public spaceso Librarieso Museumso Do you want to be a service bureau?• Other considerations
Chapter 6. Modeling• CAD and CAM support for 3D Printingo Tinkercad 2.0o Onshape vs. Solidworks vs. Fusion360 (vs. Inventor?)o Converting files from Maya et al• Scanners
Section 3. 3D Printing Curriculum Development
Chapter 7. Classroom general issues• Prints take time• Group projects?• How to define a “low floor, high ceiling” project• Contests• Student lab captains/managers/docents• Do the students do printing or is that a staff job?• Why are there so few lesson plans out there?o What existso Create your owno Links to standards• Managing classroom without a central focus• Assessment: how do you grade a 3D print?
Chapter 8. Art and Theater• Art teachers: how to think about this mediumo Pluses and minuseso Layer lineso Needs 3D computer surface modelo Complexity is freeo Multiple identical lost-PLA castings, with sprues prefabbed• Jewelry and casting• Ceramics• Painting, sanding and other post-processing• Technical theater & costuming
Chapter 9. Engineering, math and science• Visualizationo Moleculeso Other abstractions• Teaching math differently• Experimentso Wings- reference our Science project books• Functional partso Robotics• Science projects/lab equipment kluges• Motivating teaching of coding: OpenSCAD and others• 3D printing and open source electronics (Arduino)
Chapter 10. Language arts and social studies• Adjunct to storytellingo Historical reconstructiono Replacing the diorama
Chapter 11. Elementary students• Visualizationo Design (heavy on Tinkercad – print the best one?)o Example design prompts and ideas The Mouse and the Motorcycle
Chapter 12. The Special-Needs Student• Visual impaired• Learning differently/neurodiversity
Section 4. Building Lifelong Skills
Chapter 13. 3D Printers in the High School or University Lab• Emerging Applications• Mass customization• Industrial Molds• Visualization• Functional parts
Chapter 14. Where Students Might Go with This• Will students start businesses with your printer? The “digital lemonade stand”o Managing student entrepreneurship• The digital fabrication outlook: jobs to come• Whither manufacturing jobs?
Appendices:• Links from the book• Resources and references
