Location History:
- Cambridge, CA (1992 - 2020)
- Dundas, CA (2021 - 2022)
Company Filing History:
Years Active: 1992-2022
Title: The Innovative Journey of Paul Lowden
Introduction
Paul Lowden, an accomplished inventor based in Cambridge, CA, has made significant contributions to the field of materials engineering. With a remarkable portfolio of 11 patents to his name, he continues to push the boundaries of technology, particularly in the realm of superalloys used in turbine engine components.
Latest Patents
One of Paul Lowden's latest inventions is a high gamma prime nickel-based superalloy, along with methods for its use and the manufacturing of turbine engine components. This innovation addresses key challenges in manufacturing processes such as welding, 3D additive manufacturing, casting, and hot forming. The composition of this superalloy includes specific weight percentages of various elements: from 9.0 to 10.5% chromium (Cr), from 16 to 22% cobalt (Co), from 1.0 to 1.4% molybdenum (Mo), from 5.0 to 5.8% tungsten (W), 2.0 to 6.0% tantalum (Ta), among others, ensuring a balance with nickel. This inventive material presents significant advancements in the durability and performance of turbine engine components.
Career Highlights
Paul Lowden is currently associated with Liburdi Engineering Limited, where his expertise in material science is highly regarded. His work not only reflects his innovative spirit but also showcases his ability to transform theoretical concepts into practical applications that meet industry needs. Lowden's contributions have solidified his reputation as a leading figure in engineering materials.
Collaborations
Throughout his career, Paul has enjoyed fruitful collaborations with esteemed colleagues such as Joseph Liburdi and Alexander B Goncharov. These partnerships have enabled him to leverage diverse expertise and contribute to cutting-edge solutions in the field of materials engineering.
Conclusion
Paul Lowden’s journey as an inventor is marked by innovation and collaboration. His groundbreaking work on high gamma prime nickel-based superalloys signifies a remarkable step forward in aerospace engineering. As he continues to explore new frontiers in materials science, his patents pave the way for advancements in turbine engine technology, enhancing performance and efficiency in the industry.