Qixiang Tian

Title: Innovations by Qixiang Tian in Modular Steel Structures

Introduction

Qixiang Tian is a notable inventor based in Guangzhou, China. He has made significant contributions to the field of modular steel structures, particularly in earthquake-resistant designs. With a total of 2 patents, his work focuses on enhancing the safety and efficiency of building structures in high seismic intensity regions.

Latest Patents

One of Qixiang Tian's latest patents is titled "High-rise modular steel structure building node in region of high seismic intensity and constructing method therefor." This invention includes a comprehensive building node design that features an upper unit column, a lower unit column, and various connecting components aimed at improving structural integrity during seismic events. The design incorporates innovative anchorage devices and connection plates that enhance the stability of high-rise buildings.

Another significant patent is the "Earthquake-resistant and seismic-damping multifunction cooperative system for modular steel structure building." This invention provides a robust system that integrates multiple building modules, ensuring that they work together to resist seismic forces. The system includes specialized connection joints and high-strength components that allow for flexibility and strength in the face of earthquakes.

Career Highlights

Qixiang Tian is affiliated with the South China University of Technology, where he contributes to research and development in structural engineering. His work is recognized for its practical applications in real-world construction, particularly in areas prone to seismic activity.

Collaborations

He has collaborated with notable colleagues such as Junxian Zhao and Zhiqiu He, who share his commitment to advancing the field of modular construction and earthquake resilience.

Conclusion

Qixiang Tian's innovative patents and contributions to modular steel structures highlight his dedication to improving building safety in seismic regions. His work not only enhances structural integrity but also sets a precedent for future developments in earthquake-resistant technologies.