Tomomi Konaga

Title: The Innovative Contributions of Tomomi Konaga

Introduction

Tomomi Konaga is a notable inventor based in Kagoshima, Japan. She has made significant contributions to the field of materials science, particularly in the development of novel glass compositions for electronic substrates. Her work has implications for various industries, including electronics and materials engineering.

Latest Patents

Tomomi Konaga holds a patent for a "Composition for producing low temperature co-fired substrate." This innovative crystallizable glass composition is designed for creating low temperature co-fired glass-ceramic substrates. These substrates can incorporate patterns of low electrical-resistance conductors such as silver, silver-palladium, gold, and copper. The unique properties of her composition allow for the precipitation of mullite as the main crystalline phase, along with subordinate phases like forsterite, spinel, and sapphirine. The glass powder composition, when combined with an inorganic filler, can precipitate both mullite and cordierite phases, enhancing the substrate's performance. The specific oxide components in her composition include 45-58% Al₂O₃, 20-35% SiO₂, 5-15% B₂O₃, 5-20% MgO, and up to 4% alkali metal oxide. The resulting substrates exhibit high flexural strength, low dielectric constant, and a controllable thermal expansion coefficient.

Career Highlights

Throughout her career, Tomomi Konaga has worked with prominent companies such as Yamamura Glass Co., Ltd. and Kyocera Corporation. Her experience in these organizations has allowed her to refine her expertise in materials science and contribute to innovative projects.

Collaborations

Tomomi has collaborated with notable colleagues, including Tomoyuki Taguchi and Hideyuki Kuribayashi. These partnerships have fostered a collaborative environment that encourages innovation and the sharing of ideas.

Conclusion

Tomomi Konaga's contributions to the field of materials science, particularly through her innovative glass compositions, highlight her role as a leading inventor. Her work continues to influence the development of advanced electronic substrates, showcasing the importance of innovation in technology.