METHODS OF SEALING ADDITIVELY PRINTED CHANNELS AND PORTS

Organization Name

General Electric Company

Inventor(s)

Richard M. Dicintio of Simpsonville SC (US)

Srikanth C. Kottilingam of Greenville SC (US)

Brad Vantassel of Greer SC (US)

METHODS OF SEALING ADDITIVELY PRINTED CHANNELS AND PORTS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240335882 titled 'METHODS OF SEALING ADDITIVELY PRINTED CHANNELS AND PORTS

Simplified Explanation: The patent application describes a method of manufacturing a target component with internal channels using a binder jetting additive manufacturing system.

• The method involves inputting instructions for the desired component, printing it using a binder jet additive process, and depowdering the internal channels by accessing ports formed during printing.

Key Features and Innovation:

• Manufacturing target components with internal channels defined by circuitous paths.
• Printing components with at least one bend using binder jet additive manufacturing.
• Forming ports during printing to access internal channels for depowdering.

Potential Applications: This technology can be used in various industries such as aerospace, automotive, and medical for manufacturing complex components with internal channels.

Problems Solved: This technology addresses the challenge of manufacturing components with intricate internal channels efficiently and accurately.

Benefits:

• Enables the production of components with complex internal geometries.
• Improves the manufacturing process for intricate parts.
• Enhances the functionality and performance of the components.

Commercial Applications: The technology can be applied in industries requiring precise components with internal channels, potentially leading to cost savings and improved product quality.

Prior Art: Readers can start searching for prior art related to this technology in the field of additive manufacturing, specifically focusing on methods for manufacturing components with internal channels.

Frequently Updated Research: Stay updated on the latest advancements in binder jet additive manufacturing and its applications in various industries.

Questions about the Technology: 1. What are the specific industries that can benefit the most from this technology? 2. How does this method compare to traditional manufacturing processes in terms of efficiency and cost-effectiveness?

Original Abstract Submitted

a method of manufacturing a target component is disclosed. the method includes inputting, into a binder jetting additive manufacturing system, instructions for manufacturing a desired target component, wherein the target component includes at least one internal channel defined at least by a circuitous path including at least one bend; printing the target component via a binder jet additive manufacturing process to form a green body target component, wherein during the printing at least one port is formed that extends from an external surface of the target component to the at least one internal channel; and depowdering the at least one internal channel by accessing the at least one port formed on the green body target component.