Company Filing History:
Years Active: 2009
Title: Bevan R Whitaker - Innovator in Composite Structural Materials
Introduction
Bevan R Whitaker, an innovative inventor based in Irvine, CA, holds a significant patent in the field of composite structural materials. His contributions are noteworthy, particularly in enhancing the efficiency and effectiveness of these materials in various applications.
Latest Patents
Whitaker is the inventor of a patent titled "Composite structural material and method therefor." This invention encompasses methods and apparatus for creating a composite structural material that includes a non-solid composite section filled with structural foam, which effectively reduces the overall weight. Additionally, the patent details how a solid composite section is coupled to the non-solid section, providing a strong area for structural attachment. The design features a radiused region that helps alleviate stress, preventing issues such as delamination and cracking, which are critical in maintaining the integrity of the composite material under load.
Career Highlights
Currently affiliated with Boeing, Bevan R Whitaker has established himself as a crucial player in advancing composite material technologies. His work here not only reflects his individual talent and innovation but also showcases the impact that advanced materials can have on aerospace engineering.
Collaborations
Throughout his career, Whitaker has worked alongside talented colleagues, including Jeff C Unger and Shane Frank Cuda. Collaborating with such individuals has likely enriched his work, fostering an environment of creativity and shared knowledge in the realm of aerospace innovations.
Conclusion
Bevan R Whitaker’s contributions to the field of composite structural materials are a testament to the importance of innovation in engineering. His patent not only represents a significant technological advancement but also highlights the collaborative spirit within the aerospace industry. As he continues his work at Boeing, his innovations may pave the way for future developments in composite materials.