EOS GMBH ELECTRO OPTICAL SYSTEMS (20250001502). DETECTION OF THE OXIDATION PROGRESS OF METAL CONDENSATE: Difference between revisions
Creating a new page |
Creating a new page |
||
| Line 11: | Line 11: | ||
==Inventor(s)== | ==Inventor(s)== | ||
[[:Category:Ulrich Kleinhans of Prittriching | [[:Category:Ulrich Kleinhans of Prittriching DE|Ulrich Kleinhans of Prittriching DE]][[Category:Ulrich Kleinhans of Prittriching DE]] | ||
[[:Category:Marco Arnold of Puchheim | [[:Category:Marco Arnold of Puchheim DE|Marco Arnold of Puchheim DE]][[Category:Marco Arnold of Puchheim DE]] | ||
[[:Category:Tobias Eberhorn of München | [[:Category:Tobias Eberhorn of München DE|Tobias Eberhorn of München DE]][[Category:Tobias Eberhorn of München DE]] | ||
==DETECTION OF THE OXIDATION PROGRESS OF METAL CONDENSATE== | ==DETECTION OF THE OXIDATION PROGRESS OF METAL CONDENSATE== | ||
| Line 21: | Line 21: | ||
This abstract first appeared for US patent application 20250001502 titled 'DETECTION OF THE OXIDATION PROGRESS OF METAL CONDENSATE | This abstract first appeared for US patent application 20250001502 titled 'DETECTION OF THE OXIDATION PROGRESS OF METAL CONDENSATE | ||
==Original Abstract Submitted== | ==Original Abstract Submitted== | ||
Latest revision as of 02:57, 25 March 2025
DETECTION OF THE OXIDATION PROGRESS OF METAL CONDENSATE
Organization Name
EOS GMBH ELECTRO OPTICAL SYSTEMS
Inventor(s)
Ulrich Kleinhans of Prittriching DE
DETECTION OF THE OXIDATION PROGRESS OF METAL CONDENSATE
This abstract first appeared for US patent application 20250001502 titled 'DETECTION OF THE OXIDATION PROGRESS OF METAL CONDENSATE
Original Abstract Submitted
disclosed is a method of oxidizing welding fume residues of an additive manufacturing apparatus adapted to process a metal-based building material. the additive manufacturing apparatus includes a process chamber for manufacturing a three-dimensional object and a circulation system having a gas circuit for a protective gas which is passed through the process chamber. the welding fume residues are exposed for a passivation time period to a gas atmosphere containing an oxidizing agent in a chamber, where the passivation time period is ended depending on a difference between oxidizing agent concentrations in the chamber detected by at least one sensor at two points in time having a predetermined distance from one another.
