Research Team

Faculty

Pengfeng ShengMore

  • Title:postdoctor
  • Tel:shengpf@tongji.edu.cn
  • Office:Machinery North Hall
  • Information of Tutors:

Peng Feng Sheng, postdoctoral fellow, School of Mechanical and Energy Engineering, Tongji University, mainly engaged in optical processing and testing research. He has published 2 articles as the first author or co-author/newsletter in Applied Optics, Journal of Manufacturing Science and Engineering and other relevant professional journals at home and abroad.

  • Personal Experience
  • Research Areas
  • Teach Courses
  • Teach Courses
  • Academic Achievements
  • Honors and Awards

Work Experience:


2022-04 till now, at Station, Tongji University


Educational experience:


2018-03 to 2022-03, Tongji University, Optics, PhD


2016-09 to 2018-03, Tongji University, Optics, Master, PhD


2012-09 to 2016-06, Tongji University, Optical Information Science and Technology, Bachelor


Aspherical surface super smooth polishing technology, high precision aspherical surface detection technology

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(1) National Natural Science Foundation of China, Surface Project, 61975153, Mechanism of laser damage degradation of transmission elements in near-Earth space environment, 2020-01-01 to 2023-12-31, in progress, participate


(2) National Natural Science Foundation of China, Surface Project, 11873004, Research on Key Technologies of Wolter-I X-ray focusing Telescope based on negative pressure hot bending glass lens, 2019-01-01 to 2022-12-31, in progress, Participate


(3) National Natural Science Foundation of China, Joint Fund Project, U1731242, Research on Key Technologies of high-resolution nested X-ray imaging Telescope, 2018-01-01 to 2021-12-31, Concluded, Participated


Articles:

1. Pengfeng Sheng, Weicheng Gu, and Jun Yu. "Absolute measurement method for a spherical surface by random off-axis rotation based on Zernike polynomials." Appl. Opt., 2021, 60(30): 9333-9341.

2. Pengfeng Sheng, Zhengxiang Shen, Li Jiang, Shenghuan Fang and Zhanshan Wang. "Turning Parameters Optimization for Diffraction Effect Suppression of Diamond-Turned Surface Combining Surface Micro-Topography Model and Scattering Theory." J. Manuf. Sci. Eng., 2021, 143(11): 111011-1-111011-7.




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