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Tribology Letters

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01.09.2015 | Original Paper

Fractal Analysis of Surface Topography by the Directional Blanket Covering Method

verfasst von: Pawel Podsiadlo, Marcin Wolski, Gwidon W. Stachowiak

Erschienen in: Tribology Letters | Ausgabe 3/2015

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Abstract

A new method, called directional blanket covering (DBC) method, was developed in this study to quantify the roughness of surfaces in a multi-scale manner. Unlike the ASME and ISO standards on surface texture that provide a single fractal dimension (FD, roughness measure) for the entire surface, the new method calculates FDs at individual scales and directions. Also, it is invariant to affine transformations of grey-scale levels of surface image. The method calculates FDs using slopes of lines fitted to data point subsets of log–log plots of relative surface areas (differences between surface volumes) against scales of calculation. The scales are ranking from an instrument spatial resolution to 1/10 of the image shortest size. Each FD calculated has its individual scale corresponding to the centre of the subset. A flat surface criterion based on the relative areas was proposed. Using the criterion, a flat surface was identified in computer images of circle, sine wave and fractal surface. The DBC method was applied to computer-generated fractal surfaces with increasing roughness and microscope images of isotropic (sandblasted) and anisotropic (ground) surfaces of steel plates. Results showed that the method is accurate in the measurement of surface roughness and the detection of minute changes in roughness of the steel surfaces over a wide range of scales.

Vorheriger Artikel Research on the Thickness of the Friction Layer of Ni3Al Matrix Composites with Graphene Nanoplatelets

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ASME B46.1 Surface Texture, Surface Roughness, Waviness and Lay. American Society of Mechanical Engineers, New York (2002)

ISO 25178-2 Geometrical product specifications (GPS)—Surface texture: Areal—Part 2: Terms, definitions and surface texture parameters. International Organization of Standardization, Geneva (2012)

Brown, C.A., Charles, P.D.: Fractal analysis of topographic data by the patchwork method. Wear 161, 61–67 (1993)CrossRef

Brown, C.A., Siegmann, S.: Fundamental scales of adhesion and area–scale fractal analysis. Int. J. Mach. Tools Manuf. 41, 1927–1933 (2001)CrossRef

Articus, K., Brown, C.A., Wilhelm, K.P.: Scale-sensitive fractal analysis using the patchwork method for the assessment of skin roughness. Skin. Res. Technol. 7, 164–167 (2001)CrossRef

Moreno, M.C., Brown, C.A., Bouchon, P.: Effect of food surface roughness on oil uptake by deep-fat fried products. J. Food Eng. 101, 179–186 (2010)CrossRef

Jordan, S.E., Brown, C.A.: Comparing texture characterization parameters on their ability to differentiate ground polyethylene ski bases. Wear 261, 398–409 (2006)CrossRef

Blunt, L.A., Jiang, X.: Advanced Techniques for Assessment Surface Topography. Kogan Page Science, London (2003)

Lou, S., Jiang, X., Scott, P.J.: Application of the morphological alpha shape method to the extraction of topographical features from engineering surfaces. Measurement 46, 1002–1008 (2013)CrossRef

10.

MountainsMap 7 Software. Besancon, France: Digital Surf. http://www.digitalsurf.fr. Accessed 10 April 2015

11.

Talu, S., Stach, S., Sueiras, V., Ziebarth, N.M.: Fractal analysis of AFM images of the surface of Bowman’s membrane of the human cornea. Ann. Biomed. Eng. 43, 906–916 (2014)CrossRef

12.

Talu, S., Stach, S., Zaharieva, J., Milanova, K., Todorovsky, D., Giovanzana, S.: Surface roughness characterization of poly(methylmethacrylate) films with immobilized Eu(III) β-Diketonates by fractal analysis. Int. J. Polym. Anal. Charact. 19, 404–421 (2014)CrossRef

13.

Dallaeva, D., Talu, S., Stach, S., Skarvada, P., Tomanek, P., Grmela, L.: AFM imaging and fractal analysis of surface roughness of AlN epilayers on sapphire substrates. Appl. Surf. Sci. 312, 81–86 (2014)CrossRef

14.

Wolski, M., Podsiadlo, P., Stachowiak, G.W.: Applications of the variance orientation transform method to the multiscale characterization of surface roughness and anisotropy. Tribol. Int. 43, 2203–2215 (2010)CrossRef

15.

Wolski, M., Stachowiak, G.W., Dempsey, A.R., Mills, P.M., Cicuttini, F.M., Wang, Y., Stoffel, K.K., Lloyd, D.G., Podsiadlo, P.: Trabecular bone texture detected by plain radiography and variance orientation transform method is different between knees with and without cartilage defects. J. Orthop. Res. 29, 1161–1167 (2011)CrossRef

16.

Holmberg, K., Laukkanen, A., Ronkainen, H., Waudby, R., Stachowiak, G.W., Wolski, M., Podsiadlo, P., Gee, M., Gachot, C., Li, L.: Topographical orientation effects on friction and wear in sliding DLC and steel contacts, Part 1: experimental. Wear 330–331, 3–22 (2015)CrossRef

17.

Bouligand, G.: Sur la notion d’ordre de mesure d’un ensemble fermé. Bull. Sci. Math. 52, 185–192 (1929)

18.

Mandelbrot, B.B.: The fractal geometry of nature. W.H. Freeman and Company, San Francisco (1982)

19.

Russ, J.C.: Fractal Surfaces. Plenum Press, New York (1994)CrossRef

20.

Peleg, S., Naor, J.: Multiple resolution texture analysis and classification. IEEE Trans. Pattern Anal. Mach. Intell. 6, 518–523 (1984)CrossRef

21.

Lynch, J.A., Hawkess, D.J., Buckland-Wright, J.C.: A robust and accurate method for calculating the fractal signature of texture in macroradiographs of osteoarthritic knees. Med. Inform. 2, 241–251 (1991)CrossRef

22.

Geraets, W.G.M.: Comparison of two methods for measuring orientation. Bone 23, 383–388 (1998)CrossRef

23.

Bryan, J.B.: The Abbe principle revisit: an updated interpretation. Prec. Eng. 1, 129–132 (1979)CrossRef

24.

Whitehouse D.J.: Handbook of Surface and Nanometrology, 2nd edn., CRC Press, Boca Raton (2010)

25.

Stein, M.L.: Fast and exact simulation of fractional Brownian surfaces. J. Comput. Graph. Stat. 11, 587–599 (2002)CrossRef

26.

Huang, Q., Lorch, J.R., Dubes, R.C.: Can the fractal dimension of images be measured? Pattern Recogn. 27, 339–349 (1994)CrossRef

Titel: Fractal Analysis of Surface Topography by the Directional Blanket Covering Method
verfasst von: Pawel Podsiadlo
Marcin Wolski
Gwidon W. Stachowiak
Publikationsdatum: 01.09.2015
Verlag: Springer US
Erschienen in: Tribology Letters / Ausgabe 3/2015
Print ISSN: 1023-8883
Elektronische ISSN: 1573-2711
DOI: https://doi.org/10.1007/s11249-015-0569-3

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