Abstract

This paper discusses how the grain size of the processing suspension affects the variation of the surface roughness of zinc selenide during its mechanical processing. Atomic-force microscopy is used to establish how the arithmetic mean and rms roughness of the ground and polished surface depends on the abrasive grain size. It is shown that the arithmetic mean and rms deviation that characterizes the surface roughness decreases nonlinearly as the abrasive grain size decreases.

© 2013 Optical Society of America

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  1. A.  Obeĭd, “Investigating the dynamics of the surface roughness of BK7 and TF1 glasses when they are processed by surface lap,” Opt. Zh. 72, No. 12, 79 (2005) [J. Opt. Technol. 72, 951 (2005)].
  2. E. M.  Gavrishchuk, E. Yu.  Vilkova, A. N.  Kolesnikov, O. V.  Timofeev, “Investigating the polished surfaces of zinc chalcogenides by computer recognition of defects on micrographs,” Opt. Zh. 77, No. 1, 87 (2010) [J. Opt. Technol. 77, 67 (2010)].
  3. A. N.  Dubovoĭ, V. A.  Kulakov, S. A.  Nosov, E. M.  Gavrishchuk, O. V.  Timofeev, “Using atomic-force microscopy to estimate the surface characteristics of optical elements based on nanostructured ceramic consisting of zinc chalcogenides,” in Abstracts of Reports of the Seventeenth Russian Symposium on Raster Electron Microscopy and Analytical Methods of Studying Solids, Chernogolovka, 2011, p. 84.
  4. V. M.  Vinokurov, Study of the Glass-Polishing Process (Mashinostroenie, Moscow, 1967).
  5. G. S.  Khodakov, N. L.  Kudryavtseva, Physicochemical Processes for Polishing Optical Glass (Mashinostroenie, Moscow, 1985).
  6. E. Yu.  Vilkova, O. V.  Timofeev, “The effect of etching and chemomechanical polishing on the surface quality of polycrystalline ZnSe,” Neorg. Mater. 46, 297 (2010).

2010

E. M.  Gavrishchuk, E. Yu.  Vilkova, A. N.  Kolesnikov, O. V.  Timofeev, “Investigating the polished surfaces of zinc chalcogenides by computer recognition of defects on micrographs,” Opt. Zh. 77, No. 1, 87 (2010) [J. Opt. Technol. 77, 67 (2010)].

E. Yu.  Vilkova, O. V.  Timofeev, “The effect of etching and chemomechanical polishing on the surface quality of polycrystalline ZnSe,” Neorg. Mater. 46, 297 (2010).

2005

A.  Obeĭd, “Investigating the dynamics of the surface roughness of BK7 and TF1 glasses when they are processed by surface lap,” Opt. Zh. 72, No. 12, 79 (2005) [J. Opt. Technol. 72, 951 (2005)].

Dubovoi, A. N.

A. N.  Dubovoĭ, V. A.  Kulakov, S. A.  Nosov, E. M.  Gavrishchuk, O. V.  Timofeev, “Using atomic-force microscopy to estimate the surface characteristics of optical elements based on nanostructured ceramic consisting of zinc chalcogenides,” in Abstracts of Reports of the Seventeenth Russian Symposium on Raster Electron Microscopy and Analytical Methods of Studying Solids, Chernogolovka, 2011, p. 84.

Gavrishchuk, E. M.

E. M.  Gavrishchuk, E. Yu.  Vilkova, A. N.  Kolesnikov, O. V.  Timofeev, “Investigating the polished surfaces of zinc chalcogenides by computer recognition of defects on micrographs,” Opt. Zh. 77, No. 1, 87 (2010) [J. Opt. Technol. 77, 67 (2010)].

A. N.  Dubovoĭ, V. A.  Kulakov, S. A.  Nosov, E. M.  Gavrishchuk, O. V.  Timofeev, “Using atomic-force microscopy to estimate the surface characteristics of optical elements based on nanostructured ceramic consisting of zinc chalcogenides,” in Abstracts of Reports of the Seventeenth Russian Symposium on Raster Electron Microscopy and Analytical Methods of Studying Solids, Chernogolovka, 2011, p. 84.

Khodakov, G. S.

G. S.  Khodakov, N. L.  Kudryavtseva, Physicochemical Processes for Polishing Optical Glass (Mashinostroenie, Moscow, 1985).

Kolesnikov, A. N.

E. M.  Gavrishchuk, E. Yu.  Vilkova, A. N.  Kolesnikov, O. V.  Timofeev, “Investigating the polished surfaces of zinc chalcogenides by computer recognition of defects on micrographs,” Opt. Zh. 77, No. 1, 87 (2010) [J. Opt. Technol. 77, 67 (2010)].

Kudryavtseva, N. L.

G. S.  Khodakov, N. L.  Kudryavtseva, Physicochemical Processes for Polishing Optical Glass (Mashinostroenie, Moscow, 1985).

Kulakov, V. A.

A. N.  Dubovoĭ, V. A.  Kulakov, S. A.  Nosov, E. M.  Gavrishchuk, O. V.  Timofeev, “Using atomic-force microscopy to estimate the surface characteristics of optical elements based on nanostructured ceramic consisting of zinc chalcogenides,” in Abstracts of Reports of the Seventeenth Russian Symposium on Raster Electron Microscopy and Analytical Methods of Studying Solids, Chernogolovka, 2011, p. 84.

Nosov, S. A.

A. N.  Dubovoĭ, V. A.  Kulakov, S. A.  Nosov, E. M.  Gavrishchuk, O. V.  Timofeev, “Using atomic-force microscopy to estimate the surface characteristics of optical elements based on nanostructured ceramic consisting of zinc chalcogenides,” in Abstracts of Reports of the Seventeenth Russian Symposium on Raster Electron Microscopy and Analytical Methods of Studying Solids, Chernogolovka, 2011, p. 84.

Obeid, A.

A.  Obeĭd, “Investigating the dynamics of the surface roughness of BK7 and TF1 glasses when they are processed by surface lap,” Opt. Zh. 72, No. 12, 79 (2005) [J. Opt. Technol. 72, 951 (2005)].

Timofeev, O. V.

E. M.  Gavrishchuk, E. Yu.  Vilkova, A. N.  Kolesnikov, O. V.  Timofeev, “Investigating the polished surfaces of zinc chalcogenides by computer recognition of defects on micrographs,” Opt. Zh. 77, No. 1, 87 (2010) [J. Opt. Technol. 77, 67 (2010)].

E. Yu.  Vilkova, O. V.  Timofeev, “The effect of etching and chemomechanical polishing on the surface quality of polycrystalline ZnSe,” Neorg. Mater. 46, 297 (2010).

A. N.  Dubovoĭ, V. A.  Kulakov, S. A.  Nosov, E. M.  Gavrishchuk, O. V.  Timofeev, “Using atomic-force microscopy to estimate the surface characteristics of optical elements based on nanostructured ceramic consisting of zinc chalcogenides,” in Abstracts of Reports of the Seventeenth Russian Symposium on Raster Electron Microscopy and Analytical Methods of Studying Solids, Chernogolovka, 2011, p. 84.

Vilkova, E. Yu.

E. M.  Gavrishchuk, E. Yu.  Vilkova, A. N.  Kolesnikov, O. V.  Timofeev, “Investigating the polished surfaces of zinc chalcogenides by computer recognition of defects on micrographs,” Opt. Zh. 77, No. 1, 87 (2010) [J. Opt. Technol. 77, 67 (2010)].

E. Yu.  Vilkova, O. V.  Timofeev, “The effect of etching and chemomechanical polishing on the surface quality of polycrystalline ZnSe,” Neorg. Mater. 46, 297 (2010).

Vinokurov, V. M.

V. M.  Vinokurov, Study of the Glass-Polishing Process (Mashinostroenie, Moscow, 1967).

Neorg. Mater.

E. Yu.  Vilkova, O. V.  Timofeev, “The effect of etching and chemomechanical polishing on the surface quality of polycrystalline ZnSe,” Neorg. Mater. 46, 297 (2010).

Opt. Zh.

A.  Obeĭd, “Investigating the dynamics of the surface roughness of BK7 and TF1 glasses when they are processed by surface lap,” Opt. Zh. 72, No. 12, 79 (2005) [J. Opt. Technol. 72, 951 (2005)].

E. M.  Gavrishchuk, E. Yu.  Vilkova, A. N.  Kolesnikov, O. V.  Timofeev, “Investigating the polished surfaces of zinc chalcogenides by computer recognition of defects on micrographs,” Opt. Zh. 77, No. 1, 87 (2010) [J. Opt. Technol. 77, 67 (2010)].

Other

A. N.  Dubovoĭ, V. A.  Kulakov, S. A.  Nosov, E. M.  Gavrishchuk, O. V.  Timofeev, “Using atomic-force microscopy to estimate the surface characteristics of optical elements based on nanostructured ceramic consisting of zinc chalcogenides,” in Abstracts of Reports of the Seventeenth Russian Symposium on Raster Electron Microscopy and Analytical Methods of Studying Solids, Chernogolovka, 2011, p. 84.

V. M.  Vinokurov, Study of the Glass-Polishing Process (Mashinostroenie, Moscow, 1967).

G. S.  Khodakov, N. L.  Kudryavtseva, Physicochemical Processes for Polishing Optical Glass (Mashinostroenie, Moscow, 1985).

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