Company Filing History:
Years Active: 2005
Title: Innovations by Christopher S Musso in Channel Formation
Introduction: Christopher S Musso, based in Concord, MA, is an inventive mind recognized for his contributions to the field of material science and engineering. With a focus on methods for forming articles with very small channels, Musso has made significant advancements that hold the potential for various applications in technology and engineering.
Latest Patents: Musso holds a patent titled "Methods for forming articles having very small channels therethrough, and such articles, and methods of using such articles." This innovative patent describes a technique for creating channeled articles with very small diameter channels that are closely spaced. The method involves packing elongated cores into a fixture, clamping them, and introducing a matrix material around these cores. Once solidified, the cores can be removed, resulting in open channels suitable for a variety of applications including heat sinks for semiconductor devices and thermally activated actuators.
Career Highlights: Musso's career has been marked by his affiliation with the Massachusetts Institute of Technology (MIT), where he has worked on cutting-edge research and development. His innovative approach and focus on channel formation technology have positioned him as a valuable contributor to advancements in materials that enhance the efficiency of heat exchange systems and lightweight structural components.
Collaborations: Throughout his career, Musso has collaborated with notable colleagues, including Thomas W Eagar. Together, they have explored innovative approaches to material design and applications, further illustrating the importance of collaboration within the research community.
Conclusion: Christopher S Musso stands out as a remarkable inventor whose patent focusing on small channel formation reflects his dedication to advancing technology. His work at the Massachusetts Institute of Technology continues to pave the way for practical applications that promise to improve efficiencies in various engineering disciplines.