Company Filing History:
1 out of 384 
1 out of 4 Years Active: 2017-2024
Title: Innovations of Weiwen Ye in Titanium Alloys and Corrosion Inhibitors
Introduction
Weiwen Ye is a notable inventor based in Guangzhou, China, recognized for his contributions to materials science, particularly in the development of advanced titanium alloys and corrosion inhibitors. His innovative work has led to the filing of two patents that address critical needs in medical and industrial applications.
Latest Patents
Weiwen Ye's latest patents include a "High-strength and low-modulus β-type Si-containing titanium alloy, preparation method therefor and use thereof." This patent describes a preparation method for a titanium alloy that consists of 60-70% Ti, 10-20% Nb, 5-15% Zr, 1-10% Ta, and 1-5% Si. The process involves using sponge titanium, sponge zirconium, a tantalum-niobium intermediate alloy, and silicon as raw materials. The alloy is subjected to plastic deformation at a temperature of 800-900° C, followed by water quenching and annealing. This titanium alloy is particularly suitable for use as a medical implant material. Another significant patent is for a "Terpolymerized corrosion and scale inhibitor used in circulating cooling water of central air conditioning and its preparation method." This invention includes a mixture of tourmaline, polyaspartic acid, polyepoxysuccinic acid, polymaleic acid, etidronic acid, and zinc salt, designed to enhance the efficiency of cooling systems.
Career Highlights
Weiwen Ye has worked with prominent institutions such as the South China University of Technology and the Guangzhou Special Pressure Equipment Inspection and Research Institute. His experience in these organizations has contributed to his expertise in materials science and engineering.
Collaborations
Throughout his career, Weiwen Ye has collaborated with various professionals, including Yuanyuan Li and Chao Yang, who have contributed to his research and development efforts.
Conclusion
Weiwen Ye's innovative patents in titanium alloys and corrosion inhibitors demonstrate his significant impact on materials science. His work not only advances technology but also addresses practical applications in medical and industrial fields.