20240052081. PHOTO-CURABLE COMPOSITIONS CONTAINING HIGH REFRACTIVE INDEX MONOMERS FOR USE IN 3D PRINTING APPLICATIONS simplified abstract (ARKEMA FRANCE)
PHOTO-CURABLE COMPOSITIONS CONTAINING HIGH REFRACTIVE INDEX MONOMERS FOR USE IN 3D PRINTING APPLICATIONS
Organization Name
Inventor(s)
Noemi Feillee of Verneuil en Halatte (FR)
PHOTO-CURABLE COMPOSITIONS CONTAINING HIGH REFRACTIVE INDEX MONOMERS FOR USE IN 3D PRINTING APPLICATIONS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240052081 titled 'PHOTO-CURABLE COMPOSITIONS CONTAINING HIGH REFRACTIVE INDEX MONOMERS FOR USE IN 3D PRINTING APPLICATIONS
Simplified Explanation
The disclosed patent application relates to high refractive index monomers that can be used in ceramic/metal 3D printing applications. These monomers have a higher refractive index, which improves resolution and reduces light scattering when used in a composition to deposit ceramic or metallic particles. The compositions also include low refractive cross-linkers that have good thermal decomposition and reactivity, providing good cohesion during the 3D printing process.
- High refractive index monomers for ceramic/metal 3D printing applications
- Improved resolution and reduced light scattering
- Compositions with low refractive cross-linkers for good cohesion during printing
- Good thermal decomposition and reactivity of the cross-linkers
Potential applications of this technology:
- Ceramic 3D printing for creating complex shapes and structures
- Metal 3D printing for producing customized parts and components
Problems solved by this technology:
- Improved resolution and reduced light scattering enhance the quality of printed objects
- Good cohesion during printing ensures the structural integrity of the printed parts
Benefits of this technology:
- Higher refractive index monomers improve the overall performance of the 3D printing process
- Good thermal decomposition and reactivity of the cross-linkers ensure reliable and efficient printing
- The technology enables the production of high-quality ceramic and metal objects with complex geometries.
Original Abstract Submitted
disclosed are high refractive index monomers for ceramic/metal 3d printing applications. the compositions disclosed herein have a higher refractive index and thus better resolution and lower scattering of the light when employed in a composition to deposit ceramic or metallic particles. the disclosed compositions also include low refractive cross-linkers selected for their good thermal decomposition and reactivity to provide good cohesion during the 3d printing.
