Company Filing History:
Years Active: 2005-2006
Title: Dayne Killingsworth: Innovator in Aluminum Alloy Casting
Introduction
Dayne Killingsworth is a prominent inventor based in South Bend, Indiana, known for his significant contributions to the field of aluminum alloy casting. With a total of three patents to his name, he has developed innovative processes that enhance the properties and applications of aluminum alloys.
Latest Patents
Dayne's latest patents focus on advancing the techniques of semi-solid metal casting. One of his notable inventions is a method for the production of a semi-solid casting process of aluminum alloys with a grain refiner. This method involves refining primary aluminum in hypoeutectic alloys by incorporating a titanium-based grain refiner into a solid/semi-solid hypoeutectic slurry. This innovation provides control over the morphology, size, and distribution of primary aluminum in hypoeutectic aluminum-silicon castings. Additionally, he has developed a semi-solid metal casting process for hypereutectic aluminum alloys. This method allows for refining primary silicon in hypereutectic alloys by mixing multiple hypereutectic alloys into a solid/semi-solid slurry, enhancing the control of morphology in aluminum-silicon castings.
Career Highlights
Currently, Dayne Killingsworth is employed at Spx Corporation, where he applies his extensive knowledge and skills in metal casting processes. His innovative mindset and practical approach have positioned him as a valuable asset within the company, facilitating advancements in aluminum alloy technologies.
Collaborations
Throughout his career, Dayne has collaborated with fellow professionals Deepak Saha and Diran Apelian. Their combined expertise has led to significant breakthroughs in the field of aluminum alloy casting, further solidifying their collective reputation in the industry.
Conclusion
With his remarkable inventions and contributions to aluminum alloy casting, Dayne Killingsworth continues to lead the way in innovation. His work not only enhances the properties of aluminum alloys but also contributes to the broader field of materials engineering, showcasing the importance of research and development in creating more effective manufacturing processes.