Company Filing History:
Years Active: 2023
Title: Kristen Lorraine Eckart: Innovator in Multi-Layer Structures
Introduction
Kristen Lorraine Eckart is a notable inventor based in Corning, NY (US). She has made significant contributions to the field of materials science, particularly in the development of multi-layer structures. Her innovative approach has led to advancements that enhance the performance and durability of various applications.
Latest Patents
Kristen holds a patent for a "Multi-layer structure and method of making same." This invention provides a multi-layer structure, such as a sensor, which includes a high-strength glass overlay and a lamination layer on a substrate layer. The overlay is designed to be less than 250 micrometers thick and features at least one tempered surface that incorporates a surface compression layer of at least 5 micrometers deep, with a surface compressive stress of at least 200 MPa. The structure exhibits impressive characteristics, including a puncture factor of at least 3000 N/μmat B10, an apparent thickness of less than 0.014 mm, and a pencil hardness greater than 6H. The method involves ion-exchange tempering, light etching, and laminating the glass sheet to a substrate layer.
Career Highlights
Kristen is currently employed at Corning Incorporated, where she continues to push the boundaries of innovation in material technology. Her work has not only contributed to her company's success but has also positioned her as a leader in her field.
Collaborations
Throughout her career, Kristen has collaborated with talented individuals such as Satish Chandra Chaparala and Kurt Edward Gerber. These partnerships have fostered a creative environment that encourages the exchange of ideas and the development of groundbreaking technologies.
Conclusion
Kristen Lorraine Eckart's contributions to the field of multi-layer structures exemplify her innovative spirit and dedication to advancing technology. Her patent and ongoing work at Corning Incorporated highlight her role as a significant figure in materials science.