Damir Kakaš scite author profile

The aim of this study was to determine surface roughness and topography of polished dental resin-based nanocomposites. Four representative dental resin-based nanocomposites were tested in the study: two nanohybrids (Filtek Z550 and Tetric EvoCeram) and two nanofilled (Filtek Ultimate Body and Filtek Ultimate Translucent); and two reference materials: one microfilled (Gradia Direct) and one microhybrid (Filtek Z250). Polymerized cylindrical specimens (4 mm x 2 mm) were polished with multi-step polishing system- Super Snap. Immediately after the polishing, topography of each specimen was examined by Veeco di CP-II Atomic Force Microscope. Specimen's surface has been scanned in 6 points in contact mode with CONT20A-CP tips. 1 Hz scan rate and 256 × 256 resolution were used to obtain topography on a 90 µm × 90 µm scanning area. Measured topography data were processed by Image Processing and Data Analysis v2.1.15 software. Following parameters were compared among specimens: average roughness and maximum peak-to-valley distance. All of the tested materials had similar average surface roughness after finishing and polishing procedure. The lowest values occurred in the material Filtek Ultimate Body, and the highest in the Filtek Z550. When interpreting maximum peak-to-valley distance the larger differences in values (up to 100%) occurred in Filtek Z550, Filtek Z250 and Filtek Ultimate Body, which is a result of the deep polishing channels and tracks. Type, size, distribution of fillers and filler loading in tested materials, didn't influence average roughness values, but had an impact on maximum peak-to-valley distance values.

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Effect of Diamond Paste Finishing on Surface Topography and Roughness of Dental Nanohybrid Composites – AFM Analysis

Lainović

Blažić

Kukuruzović

et al. 2014

Procedia Engineering

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Surface roughness and morphology of dental nanocomposites polished by four different procedures evaluated by a multifractal approach

Ţălu

Stach

Lainović

et al. 2015

Applied Surface Science

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Influence of substrate roughness on adhesion of TiN coatings

Miletić

Terek

Kovačević

et al. 2013

J Braz. Soc. Mech. Sci. Eng.

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Damir Kakaš

Effects of die core treatments and surface finishes on the sticking and galling tendency of Al–Si alloy casting during ejection

Determination of surface roughness and topography of dental resin-based nanocomposites using AFM analysis

Effect of Diamond Paste Finishing on Surface Topography and Roughness of Dental Nanohybrid Composites – AFM Analysis

Surface roughness and morphology of dental nanocomposites polished by four different procedures evaluated by a multifractal approach

Influence of substrate roughness on adhesion of TiN coatings

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