Open Source High Temperature 3D Printer Industry Standards: Difference between revisions
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** [[High Temperature Build Chamber]] as a solution | ** [[High Temperature Build Chamber]] as a solution | ||
** What is the price point? | ** What is the price point? | ||
*** Temperature | *** Temperature | ||
* Getting materials certified for specific product market | * Getting materials certified for specific product market | ||
** Costs? | ** Costs? |
Revision as of 20:08, 3 July 2021
Problem Defined
- In order to use higher end thermoplastics, the 3D printer used will need to be able to heat the filament enough to extrude it into the solid object.
- In addition, the temperature needs to remain consistent throughout the build, especially for a larger printer
- The printer parts need to be insulated - Design Issue
- High Temperature Build Chamber as a solution
- What is the price point?
- Temperature
- Getting materials certified for specific product market
- Costs?
- Collaboration or Startup costs per Microfactory for building this product
- Access to capital or start up funding
Prior OSE Work
Prior Open Source Work
- Preprint? https://osf.io/gbjvf/ - Open Source High T printer prototype from Joshua Pearce
- Final paper by Pearce at al - [1]
Hacks, Probably Not Durable
Up to 70C Temperature Chambers
- https://www.aniwaa.com/blog/best-cheap-peek-3d-printers/ - starting at $3200
Up to 90C Temperature Chamber
Intamsys Funmat HT Enhanced
- ~$6k
- Their Website on it
- Matterhackers Page on it
- A (sort of) Review of it By The Youtube Channel "3D Printing Nerd"
Up to 120C Printers
- Creatbot - no price given - [2]
Up to 135C
- AON-M2 - [3]
110C Chamber and Up
Other Printers
- Not advertised as high temp
- Fortus 380MC - $70k - [4]
Components
- High temperature bed and heater cartridge from E3D - [5]