VulcanForms Inc. (20240326135). SYSTEMS AND METHODS FOR BROADBAND WAVELENGTH MONITORING DURING ADDITIVE MANUFACTURING PROCESSES simplified abstract
Contents
SYSTEMS AND METHODS FOR BROADBAND WAVELENGTH MONITORING DURING ADDITIVE MANUFACTURING PROCESSES
Organization Name
Inventor(s)
ALEXANDER Dunbar of Watertown MA (US)
Michael Von Dadelszen of Merrimack NH (US)
Andrew Gregory Przyjemski of Somerville MA (US)
SYSTEMS AND METHODS FOR BROADBAND WAVELENGTH MONITORING DURING ADDITIVE MANUFACTURING PROCESSES - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240326135 titled 'SYSTEMS AND METHODS FOR BROADBAND WAVELENGTH MONITORING DURING ADDITIVE MANUFACTURING PROCESSES
Simplified Explanation: The patent application discusses systems and methods for monitoring light emitted from a build surface and laser energy directed towards the build surface during an additive manufacturing process.
- Systems and methods for monitoring light emitted from a build surface during additive manufacturing.
- Systems and methods for monitoring laser energy directed towards a build surface during additive manufacturing.
- Focus on ensuring the quality and efficiency of the additive manufacturing process.
- Enhancing control and precision in the additive manufacturing process.
- Improving the overall performance and output of additive manufacturing systems.
Potential Applications: This technology can be applied in various industries such as aerospace, automotive, healthcare, and consumer goods for additive manufacturing processes.
Problems Solved: The technology addresses issues related to monitoring and controlling light and laser energy during additive manufacturing to ensure quality and precision in the final products.
Benefits: The benefits of this technology include improved quality control, enhanced efficiency, increased precision, and overall better performance in additive manufacturing processes.
Commercial Applications: "Advanced Monitoring Systems for Additive Manufacturing Processes: Enhancing Quality and Precision"
This technology can be utilized by additive manufacturing companies to improve their production processes, leading to higher quality products and increased customer satisfaction.
Prior Art: Prior research in the field of additive manufacturing monitoring systems can be explored to understand the evolution of this technology and potential areas for further innovation.
Frequently Updated Research: Researchers are continuously exploring new methods and technologies to enhance monitoring systems in additive manufacturing processes, leading to advancements in quality control and efficiency.
Questions about Additive Manufacturing Monitoring Systems: 1. How does this technology improve the overall quality of additive manufacturing processes? 2. What are the specific challenges in monitoring light and laser energy during additive manufacturing?
Original Abstract Submitted
systems and methods for monitoring light emitted from a build surface as well as other sources during an additive manufacturing process are disclosed. systems and methods for monitoring laser energy directed towards a build surface during an additive manufacturing process are also disclosed.