Vat Polymerization: Difference between revisions
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== weaknesses== | == weaknesses== | ||
* Toxic materials | * Toxic materials: Most materials that VP printers use are generally extremally toxic, and should be handled with care. protective equipment should be worn, And vp printing should always be done with proper ventilation to protect against toxic fumes. | ||
* weaker material properties | * weaker material properties | ||
* post processing | * post processing: VP parts need to be cleaned of wet resin, and | ||
* Resin degradation: resins tend to degrade in color and strength over time. especially if exposed to the elements | |||
==Technologies== | ==Technologies== | ||
There are a number of specific technologies that can vastly change to capabilities of a printer. | There are a number of specific technologies that can vastly change to capabilities of a printer. | ||
Revision as of 12:36, 24 August 2023
Process description
Vat polymerization was the first additive manufacturing developed in 1986 by Charles hull. it starts with a print plate being lowered to the top of a vat filled with a photoreactive resin. a light source is then used to cure the first layer direct on the build plate. the build plate is then raised so the next layer can be cured directly onto the last. this is repeated until the part is complete. the part then must be put through a washing process, and then a final cure with a strong light.
strengths
- fine detail
weaknesses
- Toxic materials: Most materials that VP printers use are generally extremally toxic, and should be handled with care. protective equipment should be worn, And vp printing should always be done with proper ventilation to protect against toxic fumes.
- weaker material properties
- post processing: VP parts need to be cleaned of wet resin, and
- Resin degradation: resins tend to degrade in color and strength over time. especially if exposed to the elements
Technologies
There are a number of specific technologies that can vastly change to capabilities of a printer.