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'''TRIZ''' a Russian acronym, literally: "theory of the resolution  of invention-related tasks") is "a  problem-solving,  analysis  and forecasting  tool  derived from the study of patterns of invention in the global patent literature". TRIZ relies on [http://www.triz40.com/aff_Principles_TRIZ.php 40 inventive principles].  
'''TRIZ''' a Russian acronym, literally: "theory of the resolution  of invention-related tasks") is "a  problem-solving,  analysis  and forecasting  tool  derived from the study of patterns of invention in the global patent literature". TRIZ relies on [http://www.triz40.com/aff_Principles_TRIZ.php 40 inventive principles].  
'''
Online students please just do the exercise for any two principles on your own.
'''
To give this a try as an engineering student please do the following:
# Form groups of 2
# Each group of 2 will be quasi-randomly assigned 2 principles and attempt to apply it to forecasting obvious inventions for future and (possibly) existing 3-D printer technologies. For more information on your principle click [http://www.triz40.com/aff_Principles_TRIZ.php here] Each member take 1 principle to start.
# '''Go to your principle page using the link below put in a dividing line using 4 - signs, and have both partners sign with 4 tildes. List at least twenty-five ways to make a novel 3-D printer for each of your  principles.''' '''If ideas are already on the page - list 25 NEW ideas.''' '''Do not read the old ones first.'''
# Switch with your partner then repeat.
# TRIZ uses this technical [http://www.triz40.com/aff_Matrix_TRIZ.php contradiction matrix], you can use these technical problems to find problems for your solutions:
## improve resolution (atomic)
## improve print speed (instantaneous)
## enhance material availability (all)
## reduce parts of the printer (1?)
## reduce costs of printer (free)
## reduce costs of materials (free)
## make it easier to use (McDonald's screen)
## make it easier to assemble (self)
## make it easier to maintain (none, unbreakable, self healing)
## make fully assembled products (anything - computer, car, smartphone, dinner)
## use functional printing materials (e.g. electronics)
## reduce waste (zero)
## use less energy (zero or ambient)
## quieter printing (soundless)
## ubiquitous printing (everywhere)
## print smaller (nanoscale)
## print bigger (apartment complex, Great Wall of China, planet?)
## enable auto calibration
## enable auto leveling
## enable auto monitoring
## enable quality control
## enable real-time feedback
## make it safer (infant approved)
## make is smell good (designer imposters?)
## make it from current waste products (CO2, flyash, spent fuel rods?)


To give this a try please do the following:
{{TRIZ-3D}}
# Each group will take 2 principles and attempt to apply it to forecasting obvious inventions for future and (possibly) existing 3-D printer technologies. For more information on your principle click [http://www.triz40.com/aff_Principles_TRIZ.php here] or more examples [http://www.southampton.ac.uk/~jps7/Lecture%20notes/TRIZ%2040%20Principles.pdf here].
# Create the wiki page by clicking on the red link
# Add <nowiki>{{777}} [[category:4777 TRIZ 3D printers]] </nowiki> to the top of your page
# List at least ten ways to make a novel 3-D printer for each of your 2 principles.


== Obvious ideas==
* [[Obvious 3D printer technology based on 1. Segmentation]]
* [[Obvious 3D printer technology based on 1. Segmentation]]


2. Extraction
* [[Obvious 3D printer technology based on 2. Extraction]]


3. Local Quality
* [[Obvious 3D printer technology based on 3. Local Quality]]


4. Asymmetry
* [[Obvious 3D printer technology based on 4. Asymmetry]]


5. Combination
* [[Obvious 3D printer technology based on 5. Combination]]


6. Universality
* [[Obvious 3D printer technology based on 6. Universality]]


7. Nesting
* [[Obvious 3D printer technology based on 7. Nesting]]


8. Counterweight
* [[Obvious 3D printer technology based on 8. Counterweight]]


9. Prior Counteraction
* [[Obvious 3D printer technology based on 9. Prior Counteraction]]


10. Prior Action
* [[Obvious 3D printer technology based on 10. Prior Action]]


11. Cushion in Advance
* [[Obvious 3D printer technology based on 11. Cushion in Advance]] ** Adam example


12. Equipotentiality
* [[Obvious 3D printer technology based on 12. Equipotentiality]]


13. Inversion
* [[Obvious 3D printer technology based on 13. Inversion]]


14. Spheroidality
* [[Obvious 3D printer technology based on 14. Spheroidality]]


15. Dynamicity
* [[Obvious 3D printer technology based on 15. Dynamicity]]


16. Partial, overdone or excessive action
* [[Obvious 3D printer technology based on 16. Partial, overdone or excessive action]]


17. Moving to a new dimension
* [[Obvious 3D printer technology based on 17. Moving to a new dimension]]


18. Mechanical vibration
* [[Obvious 3D printer technology based on 18. Mechanical vibration]]


19. Periodic action
* [[Obvious 3D printer technology based on 19. Periodic action]]


20. Continuity of useful action
* [[Obvious 3D printer technology based on 20. Continuity of useful action]]


21. Rushing through
* [[Obvious 3D printer technology based on 21. Rushing through]]


22. Convert harm into benefit
* [[Obvious 3D printer technology based on 22. Convert harm into benefit]]


23. Feedback
* [[Obvious 3D printer technology based on 23. Feedback]]


24. Mediator
* [[Obvious 3D printer technology based on 24. Mediator]]


25. Self-service
* [[Obvious 3D printer technology based on 25. Self-service]]


26. Copying
* [[Obvious 3D printer technology based on 26. Copying]]


27. Inexpensive short life
* [[Obvious 3D printer technology based on 27. Inexpensive short life]]


28. Replacement of a mechanical system
* [[Obvious 3D printer technology based on 28. Replacement of a mechanical system]]


29. Use pneumatic or hydraulic systems
* [[Obvious 3D printer technology based on 29. Use pneumatic or hydraulic systems]]


30. Flexible film or thin membranes
* [[Obvious 3D printer technology based on 30. Flexible film or thin membranes]]


31. Use of porous materials
* [[Obvious 3D printer technology based on 31. Use of porous materials]]


32. Changing the colour
* [[Obvious 3D printer technology based on 32. Changing the colour]]


33. Homogeneity
* [[Obvious 3D printer technology based on 33. Homogeneity]]


34. Rejecting and regenerating parts
* [[Obvious 3D printer technology based on 34. Rejecting and regenerating parts]]


35. Transforming physical or chemical states
* [[Obvious 3D printer technology based on 35. Transforming physical or chemical states]]


36. Phase transition
* [[Obvious 3D printer technology based on 36. Phase transition]]


37. Thermal expansion
* [[Obvious 3D printer technology based on 37. Thermal expansion]]


38. Use strong oxidisers
* [[Obvious 3D printer technology based on 38. Use strong oxidisers]]


39. Inert environment
* [[Obvious 3D printer technology based on 39. Inert environment]] * Pearce example


40. Composite materials
* [[Obvious 3D printer technology based on 40. Composite materials]]

Revision as of 13:51, 2 December 2019

This page was part of an MTU course MSE4777 OA and MSE4777 OB/MSE5777/EE4777/EE5777: Open-source 3-D printingPlease leave comments using the talk page. The course runs in the Fall semester. It is not open edit.Read more...

TRIZ a Russian acronym, literally: "theory of the resolution of invention-related tasks") is "a problem-solving, analysis and forecasting tool derived from the study of patterns of invention in the global patent literature". TRIZ relies on 40 inventive principles. Online students please just do the exercise for any two principles on your own. To give this a try as an engineering student please do the following:

  1. Form groups of 2
  2. Each group of 2 will be quasi-randomly assigned 2 principles and attempt to apply it to forecasting obvious inventions for future and (possibly) existing 3-D printer technologies. For more information on your principle click here Each member take 1 principle to start.
  3. Go to your principle page using the link below put in a dividing line using 4 - signs, and have both partners sign with 4 tildes. List at least twenty-five ways to make a novel 3-D printer for each of your principles. If ideas are already on the page - list 25 NEW ideas. Do not read the old ones first.
  4. Switch with your partner then repeat.
  5. TRIZ uses this technical contradiction matrix, you can use these technical problems to find problems for your solutions:
    1. improve resolution (atomic)
    2. improve print speed (instantaneous)
    3. enhance material availability (all)
    4. reduce parts of the printer (1?)
    5. reduce costs of printer (free)
    6. reduce costs of materials (free)
    7. make it easier to use (McDonald's screen)
    8. make it easier to assemble (self)
    9. make it easier to maintain (none, unbreakable, self healing)
    10. make fully assembled products (anything - computer, car, smartphone, dinner)
    11. use functional printing materials (e.g. electronics)
    12. reduce waste (zero)
    13. use less energy (zero or ambient)
    14. quieter printing (soundless)
    15. ubiquitous printing (everywhere)
    16. print smaller (nanoscale)
    17. print bigger (apartment complex, Great Wall of China, planet?)
    18. enable auto calibration
    19. enable auto leveling
    20. enable auto monitoring
    21. enable quality control
    22. enable real-time feedback
    23. make it safer (infant approved)
    24. make is smell good (designer imposters?)
    25. make it from current waste products (CO2, flyash, spent fuel rods?)
Broad and/or obvious patent claims for 3-D printing technology may hamper the open-source 3-D printing community's ability to innovate. Previous work on an algorithm protected 3-D printing materials. This page is part of a MTU Open Source 3-D Printing class project to investigate 3-D printing concepts using TRIZ and is presented here as a defensive publication of prior art to help identify obvious 'inventions' for 3-D printing.
Examiners: The ideas on this page dated Dec 3, 2015 and Nov 29, 2016 were developed by university students with less than a semester of formal 3-D printing experience (or by an instructor in class) and thus should be considered unpatentable because of obviousness to any person skilled in the art of additive manufacturing.
Appropedians: This page is open edit. Please fee free to add ideas and sign them below with ~~~~ or to use any of the ideas to built better open-source 3-D printers.

Obvious ideas

Pages in category "4777 TRIZ 3D printers"

The following 41 pages are in this category, out of 41 total.

4

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