Company Filing History:
Years Active: 2021
Title: Innovator Wangwang Ding: Advancing 3D Printing with Titanium Powders
Introduction
Wangwang Ding, an esteemed inventor based in Beijing, China, has made significant contributions to the field of additive manufacturing. With a focus on cost-effective solutions, his innovative methods enhance the preparation of titanium powders for 3D printing applications.
Latest Patents
Wangwang Ding holds a patent for a unique technique titled "Method based on fluidizing for modifying and preparing low-cost titanium powders for 3D printing." This patent introduces a novel approach that utilizes hydrogenated-dehydrogenated irregularly-shaped titanium powders as raw materials. The process involves the addition of titanium powders to a fluidized bed reactor, where argon or hydrogen is introduced at a controlled flow rate of 0.5-1.5 L/min. The reactor is heated to temperatures ranging from 300 to 700 degrees Celsius and fluidized for a duration of 5 to 90 minutes. This method enhances the titanium powders by smoothing out their sharp edges through particle collisions and friction, significantly improving their suitability for 3D printing applications.
Career Highlights
Wangwang is affiliated with the University of Science and Technology Beijing, where he utilizes his expertise to push the boundaries of materials science and engineering. His innovative work not only contributes to the academic community but also reinforces the university's reputation as a leader in research and development.
Collaborations
Throughout his career, Wangwang has had the privilege of collaborating with notable colleagues, including Mingli Qin and Gang Chen. These partnerships foster an environment of shared knowledge and innovation, further advancing their collective research goals in the field of 3D printing and materials modification.
Conclusion
Wangwang Ding's inventive spirit and dedication to enhancing titanium powders for 3D printing exemplify the qualities of a forward-thinking inventor. His patented methods not only represent a leap forward in additive manufacturing technology but also highlight the potential for cost-effective production solutions in the industry. As he continues to collaborate with fellow researchers, the future promises exciting advancements in this dynamic field.