Company Filing History:
Years Active: 2021-2024
Title: Innovations of Eduardo Barocio in Additive Manufacturing
Introduction
Eduardo Barocio is a prominent inventor based in West Lafayette, Indiana, known for his significant contributions to the field of additive manufacturing. With a total of five patents to his name, Barocio has developed innovative methods and apparatuses that enhance the capabilities of 3D printing technologies.
Latest Patents
Barocio's latest patents include groundbreaking techniques for embedding heating circuits into articles made by additive manufacturing. One of his notable inventions describes methods for co-extruding a wire capable of being heated alongside print material during the additive manufacturing process. Additionally, he has developed methods for placing pre-shaped wires between adjacent layers of printed articles and dispensing heated wires during the manufacturing process. His apparatus for embedding heating circuits includes a wire dispenser, a cutter for controlling wire length, and a compactor for integrating the wire into the printed material. Another significant patent focuses on additive manufacturing utilizing multifunctional composite materials, detailing a method for depositing a multiphase material that merges a Continuous Multifunctional Composite (CMC) phase with molten polymer to create a co-extruded multiphase material.
Career Highlights
Barocio is affiliated with the Purdue Research Foundation, where he continues to push the boundaries of additive manufacturing. His work has not only advanced the technology but has also opened new avenues for practical applications in various industries.
Collaborations
Throughout his career, Barocio has collaborated with notable colleagues, including Robert Byron Pipes and Bastian Brenken, contributing to a rich environment of innovation and research.
Conclusion
Eduardo Barocio's contributions to additive manufacturing exemplify the spirit of innovation and creativity in engineering. His patents reflect a deep understanding of materials and processes that will likely influence the future of manufacturing technologies.