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2004
The growth of the ultra precision technologies, precision engineering, micro engineering and now engineering nanotechnology is, naturally, closely related to the development of ultra precision machine tools (UPMTs). Among the first ultra precision machine tools to appear on the world stage were diamond turning machines at the U.S.
Pat McKeown, John Corbett
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The growth of the ultra precision technologies, precision engineering, micro engineering and now engineering nanotechnology is, naturally, closely related to the development of ultra precision machine tools (UPMTs). Among the first ultra precision machine tools to appear on the world stage were diamond turning machines at the U.S.
Pat McKeown, John Corbett
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Ultra-Precision Machining Of Plastics
SPIE Proceedings, 1984Recent results on the ultra-precision machining of plastics by a single crystal diamond tool with a highly precise rigid cutting apparatus are described in this paper. Using a newly developed ultra-precision air spindle and slide, detailed experiments were carried out for polymethyl methacrylate, polycarbonate and ally di-glycol carbonate among eight ...
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Special techniques in ultra-precision machining
SPIE Proceedings, 2007As the development of ultra-precision machining, the SPDT (single point diamond turning) was applied for the manufacture of a variety of optical components for its high precision , versatility and lower manufacturing cost. Whereas, the improvement of ultra-precision machining is not only related to the most topnotch equipments in the world but also ...
Li Li, Xu Min, Dong Chen, JunHua Wang
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Ultra-precision machining in Japan
Precision Engineering, 1979Abstract Japanese industry has generally been associated with mass production during the last 3 decades. There is now a growing interest in precision engineering. This article gives a historical perspective, draws an analogy with traditional production technology and philosophy, and presents examples of the new interest in precision ...
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Assessment of Ultra-Precision Machined Surfaces
Materials and Manufacturing Processes, 2000Abstract This paper reviews the theory and evaluation of ultraprecision-machined surfaces. Carbide and single crystalline diamond tools were used to machine brittle, ductile and metal matrix composites in macro and micro scales. Data for ductile mode micromachining of brittle materials (silicon, Al2O3, SiC) and ductile materials (Cu-Be, Cu-Zn, Al-Si ...
N. P. Hung, M. F. B. Wahid, K. F. Tua
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Research of Ultra Precision Machining Technology
Applied Mechanics and Materials, 2014Ultra-precision machining technology is adapt to the development of modern technology a new technology of mechanical processing, the new achievement of the development of the integrated application of the mechanical technology and modern electronic technology, measurement technology and computer technology in advanced control, testing method, etc ...
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Ultra-Precision Float Polishing Machine
CIRP Annals, 1987Abstract A new ultra-precision float polishing machine which can cut a tin lap of 460 mm in diameter very flat with a sharp diamond tool has been developed for polishing samples up to 180 mm in diameter. The conventionally pitch-polished BK-7 glass, Zerodur, Cer Vit and fused silica of 100 mm in diameter were polished to the flatness of λ/20 = 0.03 ...
Y. Namba, H. Tsuwa, R. Wada, N. Ikawa
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Development of ultra-precision machining technology
Fifth International Conference on FACTORY 2000 - The Technology Exploitation Process, 1997Ultra-precision machining based on single-point diamond turning and ultra-precision diamond grinding enables economic production of optical, mechanical and electronic components or products with form accuracy and surface roughness in micrometre and nanometre ranges respectively. Associated form and surface roughness measurement technology also plays an
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Modelling and Simulation for Ultra-Precision Machining
2017This chapter thoroughly reviews the modelling and simulation of ultra-precision machining. The analytical and numerical methods and their applications are summarised, including the Slip-line Field Modelling, Molecular Dynamics Simulation, Quasicontinuum Method, Meshfree Method, Discrete Element Method, Finite Element Method, etc.
Sandy Suet To +2 more
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Progress of Traditional Ultra-Precision Machining Processes
Advanced Materials Research, 2013Ultra-precision machining is in the forefront of advanced manufacturing technology and also will become the basis of future manufacturing technology. Ultra-precision machining already has turned into the enabling technology to success in the international competition.
Zi Xu Han, Li Bao An, Hai Dong Zhao
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