Ting Tan

Title: Innovations in Self-Stressing Engineered Composites by Ting Tan

Introduction

Ting Tan, an innovative inventor based in Shelburne, VT, has made significant contributions to the field of materials science with her groundbreaking patent. With one patent to her name, she focuses on self-stressing engineered composite materials, which promise to revolutionize construction and manufacturing processes.

Latest Patents

Ting Tan's notable patent is titled "Self-stressing engineered composite materials, methods of self-stressing engineered composite materials, and self-stressing reinforcement for same." This invention introduces self-stressing engineered composites, which incorporate a matrix that features self-stressing reinforcement. The self-stressing reinforcement is activated by an activator that triggers the reinforcement to convey its pre-stress into adjacent portions of the matrix. The patent outlines various embodiments that include self-activating and internal or external activating types. The innovative aspects of the self-stressing reinforcement not only hold and transfer pre-stress but also include a releasing component to facilitate stress transfer effectively.

Career Highlights

Ting Tan is affiliated with the University of Vermont and State Agricultural College, where she continues her research on advanced materials. Her work focuses on enhancing the performance and durability of engineered composites, addressing critical challenges in modern engineering applications.

Collaborations

Throughout her career, Ting has collaborated with esteemed colleagues, including Patrick Chang and Dong Lee, as well as Dryver R Huston. These partnerships reflect a collective effort towards furthering research in self-stressing materials and their applications.

Conclusion

Ting Tan's work on self-stressing engineered composite materials demonstrates the potential for innovation in the field of materials science. Her patent not only contributes to the understanding of composite behaviors but also paves the way for new applications in various industries. As she continues her research at the University of Vermont and State Agricultural College, the impact of her findings will likely extend well into the future, enhancing both structural integrity and efficiency in engineering practices.