Soo Wohn Lee

Title: Innovations of Soo Wohn Lee

Introduction

Soo Wohn Lee is a notable inventor based in Chungcheongnam-do, South Korea. He has made significant contributions to the field of low-friction materials, holding a total of 3 patents. His work focuses on enhancing the performance of lubricants and reducing friction in various applications.

Latest Patents

One of his latest patents is titled "Low friction member having seaweed-type nanotubes and method for producing same." This invention relates to a low friction member that incorporates nanotubes resembling seaweed, which are strategically concentrated in the direction of movement. This design improves the fluidity of liquid lubricants, effectively reducing surface friction. The invention includes a base material with dimples to minimize friction, a fixing material within the dimples, and nanotubes that protrude from the fixing material, enhancing lubricant performance.

Another significant patent is "Low-friction member imitating shark skin and manufacturing method therefor." This invention mimics the structure of shark skin, utilizing riblets formed by layering composite particles. The low-friction member exhibits excellent characteristics due to the arrangement of spherical metal lubricating particles that connect the base plate and the plate-shaped particles. This innovative design aims to improve the efficiency of low-friction applications.

Career Highlights

Soo Wohn Lee is affiliated with the Industry-University Cooperation Foundation at Sunmoon University. His work in this institution has allowed him to collaborate with other researchers and contribute to advancements in material science.

Collaborations

Some of his notable coworkers include Tae Ho Kim and Seung Ho Kim. Their collaborative efforts have furthered the development of innovative materials and technologies.

Conclusion

Soo Wohn Lee's contributions to the field of low-friction materials demonstrate his commitment to innovation and research. His patents reflect a deep understanding of material properties and their applications in reducing friction, which can lead to more efficient technologies in various industries.