Comparison of Conventional Light Scattering and Speckle Techniques Concerning an In-Process Characterisation of Engineered Surfaces
Author:
Publisher
Elsevier BV
Subject
Industrial and Manufacturing Engineering,Mechanical Engineering
Reference16 articles.
1. Messung des Mittenrauhwertes zylindrischer Teile;Peters;VDI-Berichte,1965
2. An optical instrument for measuring the surface roughness in production control;Brodmann;Annals CIRP,1984
3. An in-process measurement technique using laser for non-contact monitoring of surface roughness and form accuracy of ground surfaces;Lee;Annals CIRP,1987
4. Power spectra of rough surfaces obtained by optical Fourier transformation;Thwaite;Annals CIRP,1980
5. Optical techniques for on-line measurement of surface topography;Vorburger;Prec. Eng.,1981
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