Krishna Hemanth Vepakomma

Title: Inventor Spotlight: Krishna Hemanth Vepakomma

Introduction

Krishna Hemanth Vepakomma, based in Painted Post, NY, is a notable inventor recognized for his contributions to glass substrate technology. With a focus on enhancing the durability and performance of display panels, Vepakomma has made significant strides in the field.

Latest Patents

Vepakomma holds a patent titled "Method of Strengthening an Edge of a Glass Substrate." This innovative method addresses the challenges of strengthening edge surfaces of glass substrates, particularly in the context of display panels. The patented process involves treating the edges of the display panel with a carefully controlled acid solution, designed to remove only a minimal portion of the glass, thus preserving the integrity of the panel. After etching, the edges are rinsed and coated with a polymer protective layer to maintain their strength, thereby ensuring that the electronics on the display are not compromised during the process.

Career Highlights

Krishna Hemanth Vepakomma is associated with Corning Incorporated, a leading company in materials science and glass technology. His work at Corning focuses on developing advanced solutions that enhance the functionality and longevity of glass products used in various applications.

Collaborations

During his tenure at Corning, Vepakomma has collaborated with several talented individuals, including Kody Luce Bornstein and Donald Arthur Clark. These collaborations have facilitated the innovative spirit at Corning, driving forward advancements in glass technology.

Conclusion

Krishna Hemanth Vepakomma exemplifies the impact that focused innovation can have on technology and industry. Through his patented methods and collaborative efforts, he continues to enhance the performance of glass substrates used in modern display systems, contributing to the evolution of consumer electronics. His work not only underscores the importance of innovation in everyday technology but also highlights the potential for future advancements in material science.