UV CURABLE DIELECTRIC MATERIALS FOR 3D PRINTING AND 3D PRINTING SYSTEMS WITH THE SAME

Organization Name

Toyota Motor Engineering & Manufacturing North America, Inc.

Inventor(s)

Tianzhu Fan of Houston TX (US)

Feng Zhou of Ann Arbor MI (US)

Ercan Mehmet Dede of Ann Arbor MI (US)

UV CURABLE DIELECTRIC MATERIALS FOR 3D PRINTING AND 3D PRINTING SYSTEMS WITH THE SAME - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240260201 titled 'UV CURABLE DIELECTRIC MATERIALS FOR 3D PRINTING AND 3D PRINTING SYSTEMS WITH THE SAME

The abstract describes a 3D printing system that can print a UV-curable dielectric material, a low CTE filler, and a conductive ink onto a substrate to create a UV-curable dielectric layer with the low CTE filler dispersed within it.

• The 3D printing system includes reservoirs for the UV-curable dielectric material, low CTE filler, and conductive ink.
• Three nozzles are used to print the materials onto the substrate.
• The low CTE filler mixes with the UV-curable dielectric material to form the dielectric layer.
• The system allows for the creation of complex electronic components with varying material properties in a single printing process.
• This innovation enables the production of customized electronic devices with improved performance and functionality.

Potential Applications: - Manufacturing of electronic components with tailored material properties. - Prototyping of advanced electronic devices. - Production of flexible and wearable electronics.

Problems Solved: - Simplifies the manufacturing process of complex electronic components. - Enables the integration of multiple materials in a single printing process. - Enhances the performance and functionality of electronic devices.

Benefits: - Increased efficiency in electronic component production. - Customization of material properties for specific applications. - Cost-effective manufacturing of complex electronic devices.

Commercial Applications: Title: Advanced 3D Printing System for Electronic Components This technology can be utilized in industries such as electronics manufacturing, prototyping services, and research institutions. It has the potential to revolutionize the production of electronic devices by offering a more efficient and versatile manufacturing process.

Questions about the technology: 1. How does the integration of multiple materials in a single printing process benefit electronic component production? 2. What are the potential cost savings associated with using this 3D printing system for electronic device manufacturing?

Original Abstract Submitted

a 3d printing system includes a reservoir for a uv-curable dielectric material in communication with a first nozzle configured to print the uv-curable dielectric material onto a substrate and a reservoir for a low cte filler in communication with a second nozzle configured to print the low cte filler onto the substrate, and a reservoir for a conductive ink in communication with a third nozzle configured to print the conductive ink onto the substrate. the 3d printing system prints the uv-curable dielectric material and the low cte filler such that the printed low cte filler mixes with the printed uv-curable dielectric material and forms a uv-curable dielectric layer with the low cte filler dispersed therein.