MIG Casting: Difference between revisions
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(Asked for some clarification on some questions I had) |
(Changed some stuff; I rushed and thought this was metal wire fed fdm, some stuff still applies) |
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[https://docs.google.com/presentation/d/1FrxEERS58ZXyqdefGm0T3QD8DbOBpReYwscTEkGHC0k/edit#slide=id.g45ed589c64_0_0 edit] | [https://docs.google.com/presentation/d/1FrxEERS58ZXyqdefGm0T3QD8DbOBpReYwscTEkGHC0k/edit#slide=id.g45ed589c64_0_0 edit] | ||
=Comparison to Powder (Sintering or Melting Methods) | =Comparison to metal wire fed FDM= | ||
* | * | ||
=Comparison to Powder (Sintering or Melting Methods)= | |||
*Simpler lacking lasers or electron beams | |||
*More sealed ie not porous | *More sealed ie not porous | ||
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=Useful Links= | =Useful Links= | ||
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Revision as of 22:44, 26 February 2019
Basics
- Steel parts almost directly from 3D prints
- Based on 3D Printing Investment Casting
Steps:
- 3D print a form
- Invest it in casting material by dipping in casting solution
Working Document
Comparison to metal wire fed FDM
Comparison to Powder (Sintering or Melting Methods)
- Simpler lacking lasers or electron beams
- More sealed ie not porous