Company Filing History:
Years Active: 2024
Title: Exploring the Innovations of Inventor Mitchell E. Smith
Introduction
Mitchell E. Smith, an innovative inventor based in Avoca, NY, has made significant contributions to the field of materials testing through his patented inventions. With a focus on evaluating the properties of ceramic materials, he has developed a unique apparatus that enhances the understanding of radial compressive strength in ceramic honeycomb samples.
Latest Patents
Mitchell E. Smith holds a patent titled "Apparatus and method for evaluating radial compressive strength of a ceramic honeycomb sample." This patent describes an innovative apparatus that includes a housing defining a testing compartment, a pressure subsystem for introducing a pressurizing fluid, and a flexible member that creates a testing area for the ceramic honeycomb sample. As the flexible member expands inwardly under pressure, it subjects the honeycomb sample to a compressive force, while an end cap and acoustic sensor provide vital feedback about the sample’s structural integrity.
Career Highlights
Currently, Mitchell E. Smith is associated with Corning Incorporated, a leading innovator in the field of specialty materials and glass technology. His work at Corning underscores his commitment to advancing materials science, particularly in how ceramic materials can be assessed for strength and reliability.
Collaborations
At Corning, Mitchell collaborates with a talented team of professionals, including Krishna Sastry Aravelli and Achim Karl-Erich Heibel. Together, they work on innovative solutions that drive advancements in materials testing and performance evaluation.
Conclusion
Mitchell E. Smith exemplifies the spirit of innovation within the ceramic materials field. His patent on evaluating radial compressive strength has the potential to influence various applications where ceramic honeycomb structures are critical. Through his work and collaborations, Smith continues to contribute valuable insights that further the understanding and utilization of advanced ceramic materials.