ADDITIVE MANUFACTURING APPARATUSES AND METHODS

Organization Name

General Electric Company

Inventor(s)

Vadim Bromberg of Niskayuna NY (US)

John Sterle of Clifton Park NY (US)

Victor Fulton of Amelia OH (US)

Tyler Andrew Griffith of Norwood OH (US)

Peter Douglas Lueschen of Covington KY (US)

Carlos H. Bonilla of Lebanon OH (US)

Joseph L. Smolenski of Singerlands NY (US)

Timothy Francis Andrews of Sharonville OH (US)

Younkoo Jeong of Clifton Park NY (US)

Jacob Mayer of Cincinnati OH (US)

Kwok Pong Chan of Nisayuna NY (US)

Mary Kathryn Thompson of Fairfield Twp. OH (US)

Ruben E. Fairman of Forest Park OH (US)

ADDITIVE MANUFACTURING APPARATUSES AND METHODS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240326328 titled 'ADDITIVE MANUFACTURING APPARATUSES AND METHODS

The abstract of the patent application describes additive manufacturing apparatuses, components, and methods of using them. The apparatus includes a recoat head, a print head, actuators for movement, and a cleaning station.

• The additive manufacturing apparatus includes a recoat head for distributing build material in a build area.
• It also features a print head for depositing material in the build area.
• One or more actuators are included to move the recoat head and print head relative to the build area.
• A cleaning station is integrated into the apparatus for cleaning the print head.

Potential Applications: - This technology can be used in various industries such as aerospace, automotive, and medical for rapid prototyping and production of complex parts. - It can also be utilized in research institutions and educational settings for experimentation and innovation in additive manufacturing processes.

Problems Solved: - The technology addresses the need for efficient and precise additive manufacturing processes. - It solves the challenge of maintaining cleanliness and functionality of the print head during operation.

Benefits: - Improved accuracy and speed in additive manufacturing. - Reduced downtime for maintenance and cleaning of the print head. - Enhanced versatility in material deposition for complex part production.

Commercial Applications: - The technology can be commercialized for use in manufacturing facilities, research labs, and educational institutions to streamline additive manufacturing processes and enhance productivity.

Questions about Additive Manufacturing Apparatuses: 1. How does the recoat head distribute build material in the build area? 2. What are the key advantages of having a cleaning station in the additive manufacturing apparatus?

Frequently Updated Research: - Stay informed about the latest advancements in additive manufacturing technology by following industry publications, attending conferences, and collaborating with experts in the field.

Original Abstract Submitted

additive manufacturing apparatuses, components of additive manufacturing apparatuses, and methods of using such manufacturing apparatuses and components are disclosed. an additive manufacturing apparatus may include a recoat head for distributing build material in a build area, a print head for depositing material in the build area, one or more actuators for moving the recoat head and the print head relative to the build area, and a cleaning station for cleaning the print head.