The Metrology of Ground Concrete Surfaces Morphology With 3D Laser Scanner

• Autorzy: Lukasz Sadowski , Thomas G. Mathia
• Języki publikacji: EN

Abstrakty

EN

This paper is devoted to machining of concrete by grinding and the metrology of its surface morphologies. The surface morphology is still open problem from metrological as well as mathematical morphology points of views. In order to understand better abrasive process the raw morphologic state is compared with the ground concrete surfaces. The most significant results are presented in the form of profiles, 3D isometric views and isotropy analysis. Several 3D surface roughness parameters were calculated. (original abstract)

Słowa kluczowe

EN

Materials engineering; Road engineering

PL

Inżynieria materiałowa; Budownictwo komunikacyjne

• Czasopismo: Management and Production Engineering Review
• Rocznik: 2015
• Tom: 6
• Numer: nr 2
• Strony: 40--44

Twórcy

autor

Lukasz Sadowski

• Wroclaw University of Technology

autor

Thomas G. Mathia

• École Centrale de Lyon, France

Bibliografia

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• [7] Santos P., Julio E., Comparison of methods for texture assessment of concrete surfaces, ACI Materials Journal, 107, 5, 433-440, 2010.
• [8] Niemczewska-Wójcik M., Mathia T., Wójcik A., Measurement Techniques Used for Analysis of the Geometric Structure of Machined Surfaces, Management and Production Engineering Review, 5, 2, 2732, 2014.
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• [10] Pawlus P., Wieczorowski M., Mathia T., The Errors of Stylus Methods in Surface Topography Measurements, Editor Zapol, ISBN 98-78-83-7518-699-4, 2014.
• [11] Sadowski L., Nondestructive assessment of the bond between concrete layers in floors by means of artificial neural networks [in Polish], PhD thesis, Wrocław University of Technology, Wroclaw, 2012.
• [12] Czarnecki S., Hoła J., Sadowski L., A nondestructive method of investigating the morphology of concrete surfaces by means of newly designed 3D scanner, 11th European Conference on Nondestructive Testing, 6-10 October 2014, Prague, Czech Republic.
• [13] Hoła J., Sadowski Ł., Reiner J., Stach S., Usefulness of 3D surface roughness parameters for nondestructive evaluation of pull-off adhesion of concrete layers, Construction and Building Materials, 84, 111120, 2015.
• [14] Sadowski L., Application of three-dimensional optical laser triangulation method for concrete surface morphology measurement, Indian Journal of Engineering & Materials Sciences, 21, 692-700, 2014.
• [15] Czarnecki S., Hoła J., Sadowski Ł., The Use of a 3D Scanner for Evaluating the Morphology of a Sandblasted Concrete Surface, Key Engineering Materials, 2015 (accepted).
• [16] Sadowski L., Non-destructive evaluation of the pull off adhesion of concrete floor layers using RBF neural Network, Journal of Civil Engineering and Management, 19, 4, 550-560, 2013.
• [17] Sadowski L., Hoła J., Neural prediction of the pull off adhesion of the concrete layers in floors on the basis of nondestructive tests, Procedia Engineering, 57, 986-995, 2013.
• [18] Sadowski L., Hoła J., New nondestructive way of identifying the values of pull-off adhesion between concrete layers in floors, Journal of Civil Engineering and Management, 20, 4, 561-569, 2014.
• [19] http://www.digitalsurf.com (access 06.2014).
• [20] ISO 25178-2. Geometrical product specifications (GPS) - Surface texture: Areal - Part 2: Terms, definitions and surface texture parameters, 2012.

Identyfikatory

DOI

10.1515/mper-2015-0015