Company Filing History:
Years Active: 2020
Title: Innovations by Xiaoyuan Lou in Additive Manufacturing
Introduction
Xiaoyuan Lou is an accomplished inventor based in Rexford, NY (US). She has made significant contributions to the field of additive manufacturing, particularly in the area of grain boundary engineering. Her innovative approach has the potential to enhance the quality and performance of metal parts produced through advanced manufacturing techniques.
Latest Patents
Xiaoyuan Lou holds a patent for her work titled "Grain boundary engineering for additive manufacturing." This patent describes a method of manufacturing a metal part using a laser or electron beam during a powder bed additive manufacturing process. The method involves melting layers of metal powder with an effective amount of energy to form the metal part, ensuring that certain portions have a critical amount of residual strain. Additionally, the process includes a heat treatment that transforms the residual strain into substantially distributed coincidence site lattice (CSL) grain boundaries, low angle grain boundaries, or both in the metal part. This innovative technique aims to improve the structural integrity and performance of manufactured components.
Career Highlights
Xiaoyuan Lou is currently employed at General Electric Company, where she continues to push the boundaries of technology in additive manufacturing. Her work has garnered attention for its potential applications in various industries, including aerospace and automotive. With her expertise, she is contributing to the advancement of manufacturing processes that can lead to more efficient and reliable products.
Collaborations
Xiaoyuan has collaborated with notable colleagues such as Evan Jarrett Dolley and Martin Matthew Morra. These partnerships have allowed her to leverage diverse expertise and drive innovation in her projects.
Conclusion
Xiaoyuan Lou's contributions to additive manufacturing through her patented methods exemplify the importance of innovation in engineering. Her work not only enhances manufacturing processes but also sets the stage for future advancements in the field.