Company Filing History:
Years Active: 2020-2022
Title: Innovations of Nobuyasu Tsuno in Ni Alloy Manufacturing
Introduction
Nobuyasu Tsuno, an accomplished inventor based in Tokyo, Japan, has made significant contributions to the field of materials engineering. With a total of two patents to his name, Tsuno is recognized for his innovative methods in manufacturing nickel alloy parts, a critical area in many industrial applications.
Latest Patents
Tsuno's recent patents include a sophisticated method for manufacturing a nickel alloy part. This method comprises two main steps: a solution treatment step and an aging treatment step. During the solution treatment, a sintered compact made from a precipitation hardening Ni alloy powder, molded using metal injection molding, is treated at temperatures between 1050 °C and 1250 °C for one to five hours. This is followed by rapid cooling to room temperature. The aging treatment further enhances the alloy's properties by holding the solution-treated sintered compact at a temperature of 600 °C to 800 °C before cooling it to room temperature. Such innovative processes not only refine the production of nickel alloys but also contribute to their performance in various applications.
Career Highlights
Nobuyasu Tsuno is affiliated with IHI Corporation, a prominent enterprise known for its advanced engineering solutions and technologies. Under his tenure, Tsuno has successfully pushed the boundaries of traditional manufacturing methods, particularly in the domain of nickel alloys.
Collaborations
In his professional journey, Tsuno has collaborated closely with his colleague Shuji Ikeda. Together, they have explored new ideas and methodologies that enhance the efficiency and quality of nickel alloy manufacturing processes.
Conclusion
Nobuyasu Tsuno's innovative approach to manufacturing nickel alloy parts underscores the vital role inventors play in materials science. With his patents, he is paving the way for advancements that could greatly impact various industries reliant on high-performance materials. As the technology in this area continues to evolve, Tsuno's contributions will likely inspire future innovations and collaborations in the field.