Company Filing History:
Years Active: 1997
Title: The Innovative Journey of Donald T. Pero
Introduction
Donald T. Pero, an accomplished inventor based in Adams, Massachusetts, has made significant contributions to the field of materials science. With a singular focus on improving rubber formulations, his work involves the control of surface silanol density in silica fillers, paving the way for enhanced rubber properties. He is affiliated with General Electric Company, where he continues to push the boundaries of innovation.
Latest Patents
Donald T. Pero holds a patent for his groundbreaking invention titled "Heat cured rubbers." This patent addresses the control of the surface silanol density in silica fillers used in the formulation of heat-curable rubbers. His innovative approach enables the adjustment of the percent sealing force retention of the composite. Furthermore, by functionalizing the chemical agents employed, he provides additional means to control the physical properties of the resulting rubbers, particularly silicone rubbers.
Career Highlights
Throughout his career at General Electric Company, Donald has demonstrated a commitment to research and innovation. His work has not only advanced the understanding of rubber materials but also has practical implications in various industrial applications. With one patent to his name, he showcases a focused yet impactful approach to inventions in his field.
Collaborations
While working at General Electric Company, Donald T. Pero has collaborated with talented colleagues, including John J. Fitzgerald and John Aibangbee Osaheni. These collaborations have fostered a creative environment conducive to developing innovative solutions in the realm of heat-curable rubbers.
Conclusion
Donald T. Pero exemplifies the spirit of innovation within the engineering and materials science landscape. His contributions through patents and collaborative efforts continue to influence the industry, demonstrating how focused efforts can lead to significant advancements in technology and material properties.