Company Filing History:
Years Active: 2009
Title: The Innovative Work of Yang Zhang in Ultrasonic Brazing
Introduction
Yang Zhang, an inventor based in Nangang District, Harbin, China, has made significant contributions to the field of materials science with a focus on ultrasonic brazing techniques. With one patent to his name, he has developed a novel method for brazing metal matrix composites, which promises advancements in various industrial applications.
Latest Patents
Yang Zhang's patented invention is titled "Ultrasonic Brazing of Aluminum Alloy and Aluminum Matrix Composite." This innovative method involves the use of ultrasonic vibration to create a reinforced composite bond without the need for filling welding wire with reinforcement or adding alloy elements to generate a ceramic phase. The process includes setting a filler metal, introducing ultrasonic vibration for brazing in air, dissolving the base materials, and reintroducing ultrasonic waves. Notably, his method allows for aluminum brazing at lower temperatures, resulting in a shorter brazing time and reduced costs compared to conventional methods. The resultant joint exhibits strength, service temperature, and dimensional stability close to that of the base material, making this invention particularly impactful.
Career Highlights
Yang Zhang is associated with the Harbin Institute of Technology, where he continues to pursue research and development in advanced materials and manufacturing processes. His expertise in ultrasonic brazing has positioned him as a key contributor to the advancement of bonding technologies in engineering.
Collaborations
During his career, Yang has collaborated with esteemed colleagues such as Jiuchun Yan and Weiwei Zhao. Together, they work to push the boundaries of current technology and explore new applications for their research in materials science.
Conclusion
Yang Zhang's innovative work in ultrasonic brazing reflects a commitment to enhancing industrial processes and materials performance. His patented method exemplifies the potential for advancements that can lead to more efficient and cost-effective manufacturing solutions. As he continues to work with the Harbin Institute of Technology and his collaborators, the impact of his research is expected to resonate throughout the field and inspire future innovations.