REFRACTIVE INDEX MATCHING BASE RESIN FOR EXTREMELY FINE THREE-DIMENSIONAL CERAMIC STRUCTURES

Organization Name

Lawrence Livermore National Security, LLC

Inventor(s)

Magi Mettry of Livermore CA (US)

Juergen Biener of San Leandro CA (US)

James S. Oakdale of Castro Valley CA (US)

REFRACTIVE INDEX MATCHING BASE RESIN FOR EXTREMELY FINE THREE-DIMENSIONAL CERAMIC STRUCTURES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240316860 titled 'REFRACTIVE INDEX MATCHING BASE RESIN FOR EXTREMELY FINE THREE-DIMENSIONAL CERAMIC STRUCTURES

Simplified Explanation:

The patent application describes a ceramic product that is created using additive manufacturing, featuring a printed self-supporting three-dimensional ceramic structure with specific geometric features.

• The ceramic product is formed through additive manufacturing.
• The structure is self-supporting and three-dimensional.
• It includes a pre-defined geometric arrangement of features.
• The features have an average diameter ranging from greater than 50 nanometers to less than 1000 nanometers.

Key Features and Innovation:

• Additive manufacturing process used to create ceramic product.
• Printed self-supporting three-dimensional ceramic structure.
• Specific geometric arrangement of features.
• Features with average diameter between 50 nanometers to 1000 nanometers.

Potential Applications:

The technology could be used in industries such as aerospace, automotive, and electronics for creating complex ceramic components.

Problems Solved:

This technology enables the production of intricate ceramic structures with precise geometric features that may be challenging to achieve through traditional manufacturing methods.

Benefits:

• Enhanced design flexibility.
• Improved precision in ceramic component manufacturing.
• Potential for cost-effective production of complex ceramic products.

Commercial Applications:

The technology could be utilized in the manufacturing of high-performance ceramic components for various industries, leading to improved product quality and performance.

Questions about Ceramic Additive Manufacturing:

1. How does the average diameter of the features in the ceramic structure impact its performance? 2. What are the specific challenges in scaling up the production of ceramic products using additive manufacturing techniques?

Original Abstract Submitted

a ceramic product includes a printed self-supporting three-dimensional ceramic structure formed by additive manufacturing. the printed self-supporting three-dimensional ceramic structure includes a pre-defined geometric arrangement of features having an average diameter in a range of greater than 50 nanometers to less than 1000 nanometers.