Company Filing History:
Years Active: 2012
Title: The Innovative Contributions of Margaret Rose Manning
Introduction
Margaret Rose Manning is a notable inventor based in Akron, OH. She has made significant contributions to the field of aerospace engineering, particularly in the production of missile components. Her innovative approach has led to the development of a unique method for producing missile nose cones.
Latest Patents
Margaret holds a patent for a "Method of producing missile nose cones." This method involves manufacturing a first missile nose cone from a first lot of polymeric material and determining its rupture value. Additionally, a second missile nose cone is produced from a second lot of polymeric material, with its rupture value also determined. The two lots of material are then mixed based on their rupture values to create a test batch. An evaluation missile nose cone is manufactured from this test batch, and its rupture value is assessed. If the desired rupture value is not achieved, the mixing and evaluation steps are repeated until the desired outcome is obtained. This innovative method enhances the reliability and performance of missile systems.
Career Highlights
Margaret is currently employed at Lockheed Martin Corporation, a leading aerospace and defense company. Her work at Lockheed Martin has allowed her to apply her inventive skills in a practical setting, contributing to advancements in military technology.
Collaborations
Margaret has collaborated with esteemed colleagues, including Robert A. Shutler and Paul A. Leitch. These partnerships have fostered a creative environment that encourages innovation and the sharing of ideas.
Conclusion
Margaret Rose Manning's contributions to the field of aerospace engineering exemplify the impact of innovative thinking in technology. Her patented method for producing missile nose cones showcases her dedication to enhancing military capabilities. Through her work at Lockheed Martin and collaborations with fellow inventors, she continues to push the boundaries of engineering and innovation.