EMBEDDED SENSOR CHIPS IN 3D AND 4D PRINTED STRUCTURES THROUGH SELECTIVE FILAMENT INFUSION

Organization Name

international business machines corporation

Inventor(s)

Jeremy R. Fox of Georgetown TX (US)

Martin G. Keen of Cary NC (US)

Alexander Reznicek of Troy NY (US)

Bahman Hekmatshoartabari of White Plains NY (US)

EMBEDDED SENSOR CHIPS IN 3D AND 4D PRINTED STRUCTURES THROUGH SELECTIVE FILAMENT INFUSION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240201654 titled 'EMBEDDED SENSOR CHIPS IN 3D AND 4D PRINTED STRUCTURES THROUGH SELECTIVE FILAMENT INFUSION

Simplified Explanation: The patent application describes a method, computer program, and computer system for incorporating sensors into polymer filaments for 3D printing.

• **Identification of Structure**: The method involves identifying the structure to be formed through 3D printing.
• **Sensor Type and Location Determination**: The type of sensors and their location within the structure are determined.
• **3D Printing with Sensors**: The structure is then 3D printed with the sensors embedded at the specified location within the structure.

Key Features and Innovation:

• Incorporating sensors into polymer filaments for 3D printing.
• Determining sensor type and location within the structure.
• Enabling the creation of sensor-infused 3D printed objects.

Potential Applications:

• Manufacturing of smart objects with embedded sensors.
• Prototyping of sensor-equipped devices.
• Medical applications for sensor-integrated structures.

Problems Solved:

• Enhancing the functionality of 3D printed objects.
• Simplifying the integration of sensors into 3D printed structures.
• Improving the accuracy and precision of sensor placement.

Benefits:

• Increased customization and functionality of 3D printed objects.
• Streamlined production process for sensor-equipped structures.
• Enhanced capabilities for various industries such as healthcare, automotive, and electronics.

Commercial Applications:

• Title: "Innovative Sensor-Infused 3D Printing Technology for Enhanced Product Capabilities"
• This technology can be utilized in industries such as manufacturing, healthcare, and consumer electronics for the production of advanced sensor-integrated products.
• Market implications include improved product performance, increased efficiency in production processes, and the development of cutting-edge smart devices.

Questions about Sensor-Infused 3D Printing: 1. What are the potential challenges in integrating sensors into polymer filaments for 3D printing? 2. How does the incorporation of sensors enhance the functionality of 3D printed objects?

Original Abstract Submitted

a method, computer program, and computer system are provided for enabling chip-infused filament for 3d printing. a structure to be formed through 3d printing is identified. a type associated with one or more sensors embedded in a polymer filament and a location are determined for the one or more sensors within the structure. the structure may then be 3d printed with the one or more sensors at the location based on using the polymer filament at the location within the structure.