Fengzhou Fang
University College Dublin
430 Papers
780 Citations
Fengzhou Fang is an academic researcher from University College Dublin. The author has contributed to research in topics: Machining & Computer science. The author has an hindex of 39, co-authored 365 publications. Previous affiliations of Fengzhou Fang include Cranfield University & China Academy of Engineering Physics.
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Papers
Design of a Novel Air Bearing Workbench for Rotary Ultrasonic Drilling of Advanced Ceramics
TL;DR: In this paper, an air bearing workbench used in rotary ultrasonic drilling of advanced ceramics was designed to constantly and sensitively control the cutting force, and the workbench features an aerostatic guide and a pneumatic actuator.
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Ultraprecision turning of aspherical profiles with deep sag
X.D. Liu,L.C. Lee,X. Ding,Fengzhou Fang +3 more
- 11 Dec 2002
TL;DR: In this paper, the authors report on the technology required to produce deep-sag aspherical profiles, such as those found in optical mold inserts, and show that the diamond tool has to be tilted sufficiently to achieve an effective flank angle of around 30 degrees.
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Research on Geometric Measurement Technology of the Inner Cavity of Cylindrical Parts
TL;DR: In this article , a cone-shaped structured light measurement method based on the principle of laser triangulation is proposed for the three-dimensional measurement of inner walls, which avoids the risk of collision during conventional penetration measurement and has the advantages of high efficiency and high precision measurement.
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Intelligent evaluation for lens optical performance based on machine vision.
TL;DR: In this paper , a dual-branch structure light-spot evaluation model based on deep learning is proposed for collimating lens optical performance evaluation, and a lens light spot image dataset is built.
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Study on a Novel Adaptive Force Control Table Employed for Rotary Ultrasonic Drilling
TL;DR: In this article, a novel adaptive force control table for rotary ultrasonic machine tool was developed for machining micro holes, a mechanical balancing device by which the load can be adaptively adjusted without numerical control.
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