Yuankun Liu

Title: Innovations of Yuankun Liu in Rock Mass Deformation Measurement

Introduction

Yuankun Liu is a notable inventor based in Hubei, China. He has made significant contributions to the field of rock mass deformation measurement, particularly under high hydraulic pressure. His innovative approach has led to the development of a specialized device that enhances the accuracy and efficiency of measurements in challenging environments.

Latest Patents

Yuankun Liu holds a patent for a "Split-type device for measuring rock mass deformation under high hydraulic pressure and construction method and use thereof." This device is designed to measure rock mass deformation effectively, utilizing a combination of advanced components. The main components include a metal measuring rod, a magnetic iron core, a shell, a waterproof coil framework, a coil, a tail accessory, a cable clamp, a cable, and a signal processing bin. The electronic components are treated with an all-metal shell and a vacuum particle sealing double-layer sealing process, ensuring hydraulic pressure resistance of 5 MPa or above. The measurement signals are processed centrally, digitized, and can be utilized in real-time tests.

Career Highlights

Yuankun Liu is affiliated with the Changjiang River Scientific Research Institute of Changjiang Water Resources Commission. His work at this institute has allowed him to focus on innovative research and development in the field of hydraulic pressure measurement. His contributions have been instrumental in advancing the methodologies used in geological and construction engineering.

Collaborations

Yuankun Liu has collaborated with several professionals in his field, including Aiqing Wu and Lei Fan. These collaborations have fostered a productive environment for innovation and have led to further advancements in measurement technologies.

Conclusion

Yuankun Liu's work exemplifies the intersection of innovation and practical application in the field of rock mass deformation measurement. His patented device represents a significant advancement in the ability to measure and analyze geological formations under high hydraulic pressure. His contributions continue to influence the field and enhance the safety and efficiency of construction practices.