Bingquan Wang

Title: Innovations of Bingquan Wang

Introduction

Bingquan Wang is a notable inventor based in Harbin, China. He has made significant contributions to the field of ultrasonic detection technology. With a total of 3 patents, his work focuses on improving the accuracy and efficiency of stress detection methods in composite materials.

Latest Patents

One of his latest patents is an "Air-coupled ultrasonic plane stress detection method for composite material based on dual-modal sound-time ratios of Lamb wave." This method involves assembling a detection device and utilizing unidirectionally loaded stress to obtain different stress coefficient relations. The process includes solving stress coefficients and acquiring sound-time ratios to describe the stress state of a detection point. This innovative approach greatly enhances the accuracy of stress coefficient calibration and air-coupled ultrasonic stress representation of composite material panels.

Another significant patent is the "Ultrasonic phased array transducer device with two-dimensional hinge array structure." This device is designed for ultrasonic detection and features a unique two-dimensional hinge array structure. It includes voice coil motors arranged symmetrically and piezoelectric array elements that adapt to various workpiece surfaces. This invention allows for effective detection of flat, curved, or spherical surfaces, showcasing versatility in ultrasonic applications.

Career Highlights

Bingquan Wang is affiliated with the Harbin Institute of Technology, where he continues to advance research in ultrasonic detection technologies. His work has been instrumental in developing methods that improve the precision of stress detection in various materials.

Collaborations

He has collaborated with notable colleagues, including Weijia Shi and Bo Zhao, contributing to the advancement of ultrasonic detection technologies.

Conclusion

Bingquan Wang's innovative patents and contributions to ultrasonic detection technology highlight his role as a leading inventor in this field. His work not only enhances the accuracy of stress detection methods but also broadens the applications of ultrasonic technology in various industries.