YL

Yuren Lu

BT Beijing Institute Of Technology: 10 patents #2 of 171Top 2%
Overall (2023): #6,078 of 537,848Top 2%
11
Patents 2023

Issued Patents 2023

Showing 1–11 of 11 patents

Patent #TitleCo-InventorsDate
11835407 Device and method for ultrasonic detecting of mechanical member based on magnetic fluid coupling Chunguang Xu, Shuangyi Li, Peng Yin, Dezhi Li, Wenyuan Song 2023-12-05
11814714 Device for reducing and homogenizing residual stress of a metal frame Chunguang Xu, Wenyuan Song, Peilu Li, Peng Yin, Shuangyi Li 2023-11-14
11814331 Method for reducing propellant curing residual stress by high-energy acoustic beam Chunguang Xu, Peng Yin, Ruili Jia, Jianfeng Song 2023-11-14
11753696 Method for controlling deformation of a large-scale crankshaft Chunguang Xu, Peng Yin, Peilu Li, Dezhi Li, Shuangyi Li +2 more 2023-09-12
11745396 Device and method for controlling transverse and longitudinal stress waves during curing process of energetic composite materials Chunguang Xu, Peng Yin, Jianfeng Song, Wenyuan Song, Shuangyi Li 2023-09-05
11708619 Method and device for reducing and homogenizing residual stress of a component Chunguang Xu, Peng Yin, Jianfeng Song, Peilu Li, Dezhi Li +1 more 2023-07-25
11680858 Device and method for ultrasonic detecting of rotating member based on magnetic fluid coupling Chunguang Xu, Shuangyi Li, Peng Yin, Dezhi Li, Wenyuan Song 2023-06-20
11680857 Ultrasonic test device and test method for service stress of a moving mechanical component Chunguang Xu, Shuangyi Li, Peng Yin, Dezhi Li, Wenyuan Song 2023-06-20
11680304 Method for reducing and homogenizing residual stress of a metal frame based on elastic acoustic waves Chunguang Xu, Wenyuan Song, Peilu Li, Peng Yin, Shuangyi Li 2023-06-20
11604172 Ultrasonic monitoring probe for internal service stress of a marine structural component Chunguang Xu, Shuangyi Li, Peng Yin, Dezhi Li, Wenyuan Song 2023-03-14
11542570 Device and a method for reducing and homogenizing residual stress of a workpiece generated during machining Chunguang Xu, Dezhi Li, Ruili Jia, Peng Yin 2023-01-03