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# [http://www.blender.org/ Blender], [https://www.youtube.com/playlist?list=PL9MUC-YxhJ6BwWXXNu9THB4k4KcrsEkA9 Using Blender to Model for 3-D printing], [http://www.youtube.com/watch?v=-fe2zxcKSic 2D to 3D in Blender], [https://opensource.com/life/16/8/creating-3d-models-printing-blender-advanced-tips Creating 3D models for printing with Blender: Advanced tips]  
# [http://www.blender.org/ Blender], [https://www.youtube.com/playlist?list=PL9MUC-YxhJ6BwWXXNu9THB4k4KcrsEkA9 Using Blender to Model for 3-D printing], [http://www.youtube.com/watch?v=-fe2zxcKSic 2D to 3D in Blender], [https://opensource.com/life/16/8/creating-3d-models-printing-blender-advanced-tips Creating 3D models for printing with Blender: Advanced tips]  
# [http://www.freecadweb.org/ FreeCAD], [https://www.youtube.com/user/boumdadaque/videos Bram de Vries FreeCAD video tutorials] [https://www.youtube.com/watch?v=Q_yHME82jW8 Using OpenSCAD tricks in FreeCAD]
# [http://www.freecadweb.org/ FreeCAD], [https://www.youtube.com/user/boumdadaque/videos Bram de Vries FreeCAD video tutorials] [https://www.youtube.com/watch?v=Q_yHME82jW8 Using OpenSCAD tricks in FreeCAD]
# Tricks - [http://www.3d4edu.com/live-feeding-new-filament-updated-extruder-drive/ Multicolor], [http://st3p3d.com/blogs/3d-printing/14992261-a-few-ways-to-strengthen-3d-printed-parts A few ways to strengthen 3D printed parts], [https://www.matterhackers.com/articles/3d-print-hardware-from-mcmaster-carr 3D print from McMaster-Carr]
# Tricks - [http://www.3d4edu.com/live-feeding-new-filament-updated-extruder-drive/ Multicolor], [http://st3p3d.com/blogs/3d-printing/14992261-a-few-ways-to-strengthen-3d-printed-parts A few ways to strengthen 3D printed parts], [https://www.matterhackers.com/articles/3d-print-hardware-from-mcmaster-carr 3D print from McMaster-Carr], [https://www.3dhubs.com/knowledge-base/how-optimize-your-design-fdm-3d-printing 3DHubs - how to optimize design for FFF]
# [[Converting 2D images to 3D for printing using open source software]], [https://github.com/beanz/celtic-knot-scad Celtic Knot SCAD], [http://www.thingiverse.com/thing:56629 Bezier curves and knots script for Blender]
# [[Converting 2D images to 3D for printing using open source software]], [https://github.com/beanz/celtic-knot-scad Celtic Knot SCAD], [http://www.thingiverse.com/thing:56629 Bezier curves and knots script for Blender]
# [[MOST Delta mods]] - see also: [https://github.com/mtu-most?tab=repositories Github MTU-MOST repositories], [[Open-source syringe pump]], [[Open-source metal 3-D printer]], [[Multi-material additive and subtractive prosumer digital fabrication with a free and open-source convertible delta RepRap 3-D printer| MOST mods (incomplete but getting there)]], [http://www.lamja.com/?p=635 another approach to PCB design]
# [[MOST Delta mods]] - see also: [https://github.com/mtu-most?tab=repositories Github MTU-MOST repositories], [[Open-source syringe pump]], [[Open-source metal 3-D printer]], [[Multi-material additive and subtractive prosumer digital fabrication with a free and open-source convertible delta RepRap 3-D printer| MOST mods (incomplete but getting there)]], [http://www.lamja.com/?p=635 another approach to PCB design]

Revision as of 00:17, 19 October 2016

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MY4777/MY5777/EE4777/EE5777 Open-source 3-D printing

Athena top.JPG

(Fall 2016)

  • 9:35 am - 10:50 am, TR
  • Grover C. Dillman Hall 0101
  • Aug 29, 2016 - Dec 9, 2016

Instructor: User:J.M.Pearce

Why 3-D Printing? A recent report from data company Wanted Analytics found that in one month 35 percent of engineering job listings from a variety of fields, including biomedical, software, and transportation industries, required applicants familiar with 3-D printing.[1] Forbes explains why 3D printing is such a big deal.

Why open source? You will make more money, because OS is more valuable. Recent analysis shows that jobs with the keywords "Microsoft Windows" have an average salary of $64,000, while jobs with the keyword "Linux" have an average salary of $99,000. [2]


Course Description

This course provides an introduction to distributed additive manufacturing using open-source 3-D printing. First this course will provide an overview of open-source hardware and technological development in theory and practice. Both the use of software and user communities will be highlighted and demonstrated. Next, the course will detail the design, use and maintenance of the open-source electronics behind the development of self-replicating rapid prototypers. Then the technological evolution of the open-source 3-D printing technology will be covered with a focus on developing innovation for improved performance and materials selection. Each student will build a customized RepRap and the course will cover hardware, firmware, slicing and printer controller software for operating and maintaining the device. Finally the material properties, applications and ramifications of RepRap technology will be discussed.

The course is meant for advanced undergraduate and graduate students in Materials Science & Engineering, and Electrical & Computer Engineering, while students in other areas of engineering or science with a strong interest in this topic are also welcomed. Graduate students are expected to complete all coursework assigned to the undergraduates and an in depth project.

Credits: 3.0 Lec-Rec-Lab: (3-0-[0-3]), (3 lecture hours and 0-3 lab hours)

Required Course Material

OSL.jpg

There is a $500 course fee for this course. This fee will be used to purchase a MOST Delta RepRap 2 kit for you to use during the course. At the end of the course you keep the printer you built and modified. The design will be somewhat like the image above - but note that it is a rapidly evolving technology so by Fall the design will have improved.

Textbook: J.M. Pearce, The Open-Source Lab (Elsevier,2014). Other reading will be handouts in class, on-line reading, and emailed pdfs. See hyperlinks in schedule.

Course Organization

This course will be run as an intense seminar meeting as a group. Students will be expected to read the course material before class and actively participate in discussions. The majority of class time will be spent on projects in a flipped class format. Each student will be responsible for building a RepRap 3-D printer to use to complete the projects. Students will be responsible for giving short presentations on their projects on each sub-topic in front of the class at the end of the semester.

Graduate students will take the same lecture and projects as the undergraduates, however, they will also be expected to complete a significant improvement to the RepRap design by the end of the semester. They will demonstrate their mods for the class.

Grading

Letter Grade Percentage Grade points/credit Rating
A 93% & above 4.00 Excellent
AB 88%– 92% 3.50 Very good
B 82% – 86% 3.00 Good
BC 76%– 81% 2.50 Above average
C 70% – 75% 2.00 Average
CD 65%– 69% 1.50 Below average
D 60%- 64% 1.00 Inferior
F 59% and below 0.00 Failure
I Incomplete; given only when a student is unable to complete a segment of the course because of circumstances beyond the student’s control. A grade of incomplete may be given only when approved in writing by the department chair or school dean.
X Conditional,with no grade points per credit; given only when the student is at fault in failing to complete a minor segment of a course, but in the judgment of the instructor does not need to repeat the course. It must be made up within the next semester in residence or the grade becomes a failure (F). A (X) grade is computed into the grade point average as a (F) grade.

Grading Policy

Grades will be based on the following:

RepRap build 100
MinniMech Project 100
Viking Project 100
Science Equipment Project 250
OSAT Project 250
Big Money Project or Science Equipment Advanced 200
Total Points 1000
  • Grad students must also complete an improvement to the RepRap OR a 3-D printed automated Scientific Apparatus worth 1000 points and be graded out of 2000.

Late Assignments

Deduct 10% per day, up to 5 working days, then 0 grade. Only exception is for documented illness. Missed projects are penalized by the negative square of the percent total.

Course Policies

Appropriate behavior, attendance, participation and collaboration with your peers on group assignments is expected. Collaboration/Plagiarism Rules Collaboration is encouraged on the group project but the individual project and exams must be completed alone. Calculators are allowed for exams but electronic communication devices are prohibited.

University Policies

Academic regulations and procedures are governed by University policy. Academic dishonesty cases will be handled in accordance the University's policies. If you have a disability that could affect your performance in this class or that requires an accommodation under the Americans with Disabilities Act, please see me as soon as possible so that we can make appropriate arrangements. The Affirmative Action Office has asked that you be made aware of the following: Michigan Technological University complies with all federal and state laws and regulations regarding discrimination, including the Americans with Disabilities Act of 1990. If you have a disability and need a reasonable accommodation for equal access to education or services at Michigan Tech, please call the Dean of Students Office at 487-2212. For other concerns about discrimination, you may contact your advisor, Chair/Dean of your academic unit, or the Affirmative Programs Office at 487-3310.

Course Schedule

Please Note: Readings will be updated periodically before we get to the module.

Date Class Class description Assignment
08/30 1 Intro to class, big money, grad and build assigned Syllabus, Schedule, M0.1
09/01 2 Get kits -Start Building Your 3D Printer! Bring bags/boxes for large part and a sealed container for small parts. Safety, Start building, M0.2
09/03 Bonus! 8:05 - 16:55 Help Building Your 3D Printer! Bring everything. Solder stations, epoxy stations available, M0.2
09/06 3 RepRap software chain M0.3,M0.4
09/08 4 OSH definitions, development, business M1.1
09/13 5 OS licenses, legal discussion M1.2
09/15 6 Arduino M1.3, Campus Battle
09/20 7 RepRap show and tell (monster build) RepRap built, BRING IT TO CLASS
09/22 8 RepRap community, Printing tricks, Intro to wiki- Appropedia M2.1-3, Create and populate Appropedia user page
09/27 9 Mechanical properties of 3-D printed parts M3.0 MY4777 MiniMech project assigned
09/29 10 Blender Tutorial/in class micro project lamp shade M3.2, M0.4
10/04 11 FreeCAD Tutorial/in class micro project lens cover M3.3, M3.4
10/06 12 OpenSCAD Tutorial/ in class micro project rock wall hold using this bolt M3.3, M3.4, MiniMech project due
10/11 13 Mashup Mashup Viking décor project assigned, M3.5
10/13 14 Mashup project
10/18 15 Mashup show and tell Viking project due
10/20 16 OS scientific hardware – lab partners M4.1, M4.2, 777 OSH Science project 2016 assigned
10/25 17 Science Teams Post lab partners-projects, M4.3
10/27 18 Science Teams (no class - meet in lab) No class - meet in lab
11/01 19 Science Teams Science prototype due (online post)
11/03 20 Test prototype, revise, trouble shoot Graduate students - choose project and list it on MOST Delta mods or Automated 3D printable scientific equipment
11/8 21 Science Show and Tell Science revisions due, with data posted NIH/Github/Appropedia Gallery
11/10 22 Open source appropriate technology 777 OSAT projects 2015 M5.1
11/15 23 OSAT project OSAT project chosen, M5.2
11/17 24 OSAT Project/Big Money Project-Sci+ 777 Big Money Project Assigned
11/22 No School Thanksgiving
11/24 No School Thanksgiving
11/29 25 Inventive thinking/OSAT Project/ Big Money Project-Sci+ category:4777 TRIZ 3D printers
12/01 26 Inventive thinking/OSAT Project/ Big Money Project-Sci+ M6.1 File:Husky statue.stl Open Source.com TAZ mini giveaway
12/06 27 OSAT Show and Tell OSAT final due
12/08 28 Last day – The Future, Money Project-Sci+ and Grad Money Project, Graduate Project Due: MOST Delta mods or Automated 3D printable scientific equipment

Readings and Media

OSL= Open-Source Lab textbook

Module 0: RepRap Build

  1. Watch RepRap video, The RepRap project- Ranellucci
  2. RepRap build OSL Chap. 5, Delta Build Overview:MOST, Athena_Build_Overview, Need help go here https://groups.google.com/a/mtu.edu/forum/?hl=en#!forum/most-delta-users-l then use email: most-delta-users-l@mtu.edu
  3. Software - Delta Software:MOST(old), Slicers RepRap Magazine 1, Slic3r, Cura,RepRapPro Slicer, tweak AtoZ Cura plugin, Matter Control
  4. Printer controllers - Printrun, Franklin -- How to Install Franklin on your 777 printer, Franklin use video, Using Franklin (long), Hacking Franklin

Module 1: Introduction to OSH

  1. OSL Chap. 2 OSH Introduction, Cathedral and Bazaar, Microsoft OSH, OSH intro video, TEDxBoulder - Nathan Seidle (Sparfun)- How Open Hardware will Take Over the World, Lulzbot factory tour and discussion of OSH business by Jeff Moe, The Law of Accelerating Returns by Ray Kurzweil, Do Makers Propose a More Open Source Future? - Idea Channel, PBS Digital Studios, 2015 the Year OSS went nuclear, Can Open-Sourcing Transform Electronics Hardware?
  2. OSL Chap. 3 OS License OS License, Creative Commons copyright licenses, OS software for GNU-Linux, The Future of 3D Printing: Smarter IP Strategies, Less Lawsuits
  3. OSL Chap. 4 OS microcontrollers Arduino Tutorials , Makershed comparison, Jeremy Blum TED talk, Nathan Seidle- SparkFun

Module 2: Community

  1. RepRap IRC, RepRap Forums, RepRap Groups
  2. Arduino Forum, Arduino google group
  3. Free and open repositories of designs, http://www.yeggi.com/ http://www.stlfinder.com/
  4. Tricks: support, raft, parts, orientation, fill, slicer choice, pictorial guide to problems,pictorial guide to reprap print trouble shooting, calibration photos, RichRap Slic3r is Nicer, living hinges
  5. Appropedia, 777 demo page

Module 3: Open source CAD

  1. OpenSCAD, OpenSCAD manual, OpenSCAD for 3D Printing Kindle Edition, MOST SCAD Libraries on Github, Object oriented OpenSCAD, RapCAD
  2. Blender, Using Blender to Model for 3-D printing, 2D to 3D in Blender, Creating 3D models for printing with Blender: Advanced tips
  3. FreeCAD, Bram de Vries FreeCAD video tutorials Using OpenSCAD tricks in FreeCAD
  4. Tricks - Multicolor, A few ways to strengthen 3D printed parts, 3D print from McMaster-Carr, 3DHubs - how to optimize design for FFF
  5. Converting 2D images to 3D for printing using open source software, Celtic Knot SCAD, Bezier curves and knots script for Blender
  6. MOST Delta mods - see also: Github MTU-MOST repositories, Open-source syringe pump, Open-source metal 3-D printer, MOST mods (incomplete but getting there), another approach to PCB design
  7. Open Source Photogrammetry, Open source 3D scanners

Module 4: OS Science

  1. OSL Chap. 1 examples 3D printable science equipment, Tekla Lab requests
  2. OSL Chap. 5
  3. OSL Chap. 6
  4. OSL Chap. 7

Module 5: OSAT

  1. Case for Open Source Appropriate Technology, 3-D Printing of Open Source Appropriate Technologies for Self-Directed Sustainable Development, Open source 3-D printing of OSAT, How 3D Printers Are Boosting Off-The-Grid, Underdeveloped Communities - MotherBoard
  2. Recyclebot, Open Source Ecology TED talk

Other

  1. The Economist-- A third industrial revolution, Where we go from here - types of OS3DP Open-source metal 3-D printer
Mtuhusky.png

Other good watching: First International Workshop on "Low-cost 3D Printing for Science, Education and Sustainable Development, 25. Hopes and Fears, 27. Open Hardware and Arduino, 31. Prehistoric Collections: Digitizing the Leaky collection and interesting perspectives on digital rights and proprietary museum collections, 33. Bringing a CAD model into a physical object: Ranelucci video, 54. The future of 3D printing: Another Ranelucci video.

Contests

  • 2017 Direct Digital Manufacturing Design Competition! This Year’s Theme: Mobility Innovation [3] -- Entries must submitted on or before 12 a.m. EDT March 13, 2017, to be considered. The top designs in each academic level and category will be recognized during RAPID + TCT, May 8-11, 2017, in Pittsburgh.

Jobs

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