Hai-Tao Wang

Title: **Innovative Contributions of Hai-Tao Wang in Fastening Technology**

Introduction

Hai-Tao Wang, an inventor based in Fountain Valley, California, has made significant contributions to fastening technologies. With a total of three patents to his name, Wang's innovations cater to diverse load applications, demonstrating his expertise in the field.

Latest Patents

Wang's latest patents revolve around the development of a swage type fastener. This innovative fastening system features a pin member with a uniquely designed lock groove and crest geometry. These elements are optimized to accommodate swaged materials from collars of varying strengths, enabling the secure connection of workpieces under different load conditions. The design ensures that the lock grooves can handle collars of lower to greater strength, thereby maintaining satisfactory clamp and tensile loads while resisting failure. Furthermore, the system allows for collars of different materials, which share similar outside diameters, to be installed using a standard tooling setup, facilitating effective applications in shear, shear/tension, shear composite, and shear/tension composite scenarios.

Career Highlights

Wang is currently associated with Huck International, Inc., where he continues to innovate and push the boundaries of fastening technology. His practical knowledge and engineering acumen have led to advancements that benefit a wide array of industries, enhancing the reliability and performance of fastening systems.

Collaborations

During his tenure at Huck International, Wang has collaborated with notable colleagues, including Thomas E. Harbin and Michael U. March. These partnerships have fostered a collaborative environment that stimulates creativity and drives technological advancements in fastening solutions.

Conclusion

Hai-Tao Wang's contributions to fastening technology through his patents illustrate the importance of innovative design in engineering. As he continues to develop solutions that not only meet industry standards but also enhance performance, his work will likely influence the future of fastening technologies significantly.