Dennis M Kochmann

Title: Innovations of Dennis M Kochmann

Introduction

Dennis M Kochmann is a prominent inventor based in Pasadena, CA. He has made significant contributions to the field of materials science, particularly in the development of low-density materials and their mechanical properties. With a total of 2 patents, Kochmann's work is at the forefront of innovative material design.

Latest Patents

Kochmann's latest patents include groundbreaking technologies. One of his patents focuses on the self-assembly of shell-based architected materials. This invention provides low-density materials with three-dimensional architectures formed through self-assembly processes. These shell-based materials exhibit ultralow density and non-periodic architectures characterized by low defect densities. They are designed to enhance mechanical response, offering high stiffness-to-density ratios and resilience against deformation.

Another notable patent is related to broadband electromechanical spectroscopy. This invention describes an apparatus and method where the viscoelastic and fatigue life of materials can be altered by applying a secondary tuning electromagnetic field or selected temperature. The material's properties are measured through its mechanical response when subjected to a primary driving electromagnetic field.

Career Highlights

Kochmann is affiliated with the California Institute of Technology, where he continues to push the boundaries of material science. His research focuses on innovative approaches to create materials with enhanced mechanical properties and functionalities.

Collaborations

Throughout his career, Kochmann has collaborated with notable colleagues, including Carlos M Portela and Daryl Wei Liang Yee. These collaborations have further enriched his research and contributed to the advancement of material science.

Conclusion

Dennis M Kochmann's contributions to the field of materials science through his innovative patents highlight his role as a leading inventor. His work on shell-based materials and electromechanical spectroscopy showcases the potential for developing advanced materials with unique properties.