CLOSED LOOP CONTROL OF AN ACTIVE PROCESSING AREA IN ADDITIVE MANUFACTURING

Organization Name

FORMALLOY TECHNOLOGIES, INC.

Inventor(s)

Jeffrey L. Riemann of Spring Valley CA (US)

Kurt R. Moran of Spring Valley CA (US)

CLOSED LOOP CONTROL OF AN ACTIVE PROCESSING AREA IN ADDITIVE MANUFACTURING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240286222 titled 'CLOSED LOOP CONTROL OF AN ACTIVE PROCESSING AREA IN ADDITIVE MANUFACTURING

Simplified Explanation: The patent application describes a method for operating an additive manufacturing system by analyzing image data to adjust processing parameters in real-time.

• **Determining characteristics of the active processing area:** The method involves analyzing at least two characteristics of the active processing area while depositing a layer of a part being additively manufactured.
• **Closed loop control of processing parameters:** The system performs closed loop control of at least two processing parameters to modify the characteristics of the active processing area during the manufacturing process.

Potential Applications: This technology could be applied in various industries such as aerospace, automotive, and healthcare for producing complex and customized parts with high precision.

Problems Solved: This innovation addresses the need for real-time monitoring and adjustment of processing parameters in additive manufacturing to ensure quality and consistency in the final products.

Benefits: The benefits of this technology include improved efficiency, higher quality parts, reduced waste, and increased flexibility in manufacturing processes.

Commercial Applications: Title: Real-time Monitoring and Control System for Additive Manufacturing This technology could be used in commercial additive manufacturing facilities to enhance production processes, reduce errors, and meet the growing demand for customized parts in various industries.

Prior Art: Prior research in the field of additive manufacturing has focused on improving process control and monitoring, but this specific method of real-time adjustment based on streaming image data may be a novel approach.

Frequently Updated Research: Researchers are continuously exploring new methods and technologies to optimize additive manufacturing processes, including real-time monitoring and control systems.

Questions about Additive Manufacturing: 1. How does real-time monitoring and control improve the quality of additive manufacturing products? 2. What are the potential challenges in implementing real-time adjustment of processing parameters in additive manufacturing systems?

Original Abstract Submitted

additive manufacturing systems and methods are described, including a method of operating an additive manufacturing system, including: determining, by processing streaming image data, at least two characteristics of an active processing area while depositing a layer of a part being additively manufactured; and performing closed loop control of at least two processing parameters of the additive manufacturing system in order to modify the at least two characteristics of the active processing area while depositing the layer of the part being additively manufactured.