Dar'ya Andreevna Sidorenko

Title: Dar'ya Andreevna Sidorenko: Innovator in Powder Metallurgy

Introduction

Dar'ya Andreevna Sidorenko is a notable inventor based in Moskovskaya obl., Russia. She has made significant contributions to the field of powder metallurgy, particularly in the development of composite materials for diamond tools. Her innovative approach has led to the creation of a unique copper-based binder that enhances the performance of tools used in construction and stone working.

Latest Patents

Sidorenko holds a patent for her invention titled "Copper based binder for the fabrication of diamond tools." This invention focuses on the production methods of composite materials, specifically copper base binders that are essential for diamond tools. The binder consists of various components, including copper, iron, cobalt, tin, tungsten carbide, and an alloying addition. The alloying addition can be a nanopowder with specific surface areas, which significantly improves the wear resistance, hardness, strength, and impact toughness of the binder without requiring a substantial increase in sintering temperature. She has 1 patent to her name.

Career Highlights

Throughout her career, Sidorenko has worked with esteemed organizations, including the Federal Agency for Legal Protection of Military, Special and Dual Use Intellectual Activity Results and the National University of Science and Technology "MISIS." Her work in these institutions has allowed her to further her research and development in innovative materials.

Collaborations

Sidorenko has collaborated with notable colleagues such as Evgeny Aleksandrovich Levashov and Vladimir Alekseevich Andreev. These collaborations have contributed to her success and the advancement of her research in the field of powder metallurgy.

Conclusion

Dar'ya Andreevna Sidorenko is a pioneering inventor whose work in developing copper-based binders for diamond tools has made a significant impact in the construction industry. Her innovative contributions continue to influence the field of powder metallurgy and enhance the performance of essential tools.