People
Computer numerical controlled (CNC) machining, additive manufacturing and laser processing,
digital design and manufacturing, machine vision, computer aided design /manufacturing
Honor and Awards
[1] 2015 the Second Prize of the National Defense Science and Technology Progress Award
[2] 2017 the Second Prize of the Liaoning Provincial Science and Technology Award
[3] 2018 the Most Influential Engineering Project at the China Automation Industry Annual Conference: "Robotic Precision Grinding and Polishing Technology and Equipment for Complex Surfaces"
[4] 2020 Outstanding Scientific and Technological Worker of Liaoning Province (12th Session).
[5] 2022 Top Ten Scientific and Technological Advances in China's Intelligent Manufacturing: "Robotic Intelligent Grinding and Polishing of Thin-Walled Complex Surfaces with Variable Stiffness"
[6] 2024 Most Competitive Innovative Product at the China Automation Industry Annual Conference: Series Products for Conduit Measurement
[7] 2025 Outstanding Communist Party Worker of the Shenyang Branch of the Chinese Academy of Sciences in 2023-2025 term.
Publications
[1] Zhou, Bo; Zhao, Jibin; Xia, Renbo; et al. A flexible tooling system for aero-engine pipelines with complex components based on human-robot collaboration. Journal of Manufacturing Systems, 83:103-125, Dec 2025.
[2] Xia, Zhongyuan; Zhao, Jibin; Xia, Renbo. An Improved Depth-Based Camera Model in Binocular Visual System. 2021 3rd International Symposium on Robotics and Intelligent Manufacturing Technology, p 278-281, 2021.
[3] Xia, Zhongyuan; Zhao, Jibin; Xia, Renbo. An Improved Method for Correcting the Eccentricity Error of Circular Projection in the Binocular Visual System. 2021 3rd International Symposium on Robotics and Intelligent Manufacturing Technology, p 194-197, 2021.
[4] Xia, Renbo; Zhao, Jibin; Zhang, Tianyu; et al. Detection method of manufacturing defects on aircraft surface based on fringe projection. Optik, 208, Apr 2020.
[5] Wu JJ; Zhao JB; Qiao HC; Hu XL; Yang YQ. The new technologies developed from laser shock processing. Materials,13[6]:1-20,2020.
[6] Sun BY; Zhao JB; Qiao HC; Lu Y. Effects of square spot size and beam quality on residual stress of 7050 aluminum alloy by laser shock peening. Materials Chemistry and Physics,284:1-10,2022.
[7] Zhao JB; Wu JJ; Hu XL; Yang YQ; Qiao HC. Effect of laser shock processing on mechanical properties of Ti-45.5Al-2Cr-2Nb-0.15B alloy. Optik,217:1-5,2020.
[8] Wang ZG; Zhao JB; Zhao YH; Zhang ZH; Zhang HY; He ZF. Formation and impact of functionally graded buffer layers between martensitic stainless steel and wrought steel substrate by laser metal deposition. Materials and Design,201:1-12,2021.
[9] Zou HB; Xia RB; Zhao JB; Zhang T; Zhang TY; Chen YL; Fu SP. Extrinsic calibration method for 3D scanning system with four coplanar laser profilers. MEASUREMENT SCIENCE AND TECHNOLOGY,34[1]:1-13,2023.
[10] Wang ZG; Zhao JB; Zhao YH; Zhang, Hongyu; Shi F. Microstructure and Microhardness of Laser Metal Deposition Shaping K465/Stellite-6 Laminated Material. METALS,7[11]:1-10,2017.
