Additive Manufacturing has quickly become an acceptable process within many areas of manufacturing.
Complex designs with improved functionality are easily produced using additive methods, replacing traditional subtractive and formative processes. However, these additively manufactured parts present new metrology challenges.
Additive manufacturing produces parts with unique surface textures dependent on the printing technique, material used, and the process parameters. In this webinar, we will show how specific non-contact 3D optical metrology techniques can provide a complete solution for the characterization of the form and texture of additively manufactured parts.
Please join us on the 3rd of June 2021!
Webinar aims
Characterize form and surface texture: Full Solution
Help you with the technology decision
Who should attend?
Any professionals that aim for more understanding of their Additive Manufacturing process.
Any professionals focused on predicting the functionality of their AM pieces.
Any curious individual that wants to know more about characterization of AM surfaces.
Webinar 3rd June, 2021 - How 3D Non-contact Surface measurement can improve your Additive Manufacturing process
Thursday, 3th June:
Additive Manufacturing has quickly become an acceptable process within many areas of manufacturing.
Complex designs with improved functionality are easily produced using additive methods, replacing traditional subtractive and formative processes. However, these additively manufactured parts present new metrology challenges.
Additive manufacturing produces parts with unique surface textures dependent on the printing technique, material used, and the process parameters. In this webinar, we will show how specific non-contact 3D optical metrology techniques can provide a complete solution for the characterization of the form and texture of additively manufactured parts.
Please join us on the 3rd of June 2021!
Webinar aims
Who should attend?
Related products
S neox
S neox Five Axis 3D
Partner
Sensofar
Related categories
3D Optical Profilometers Non-contact