Wetting Behavior Driven by Surface Morphology Changes Induced by Picosecond Laser Texturing

Corsaro, Carmelo; Orlando, Gabriele; Costa, Gabriele; Latino, Mariangela; Barreca, Francesco; Mezzasalma, Angela Maria; Neri, Fortunato; Fazio, Enza

doi:10.3390/ma17081719

Materials

2024

DOI: 10.3390/ma17081719

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Wetting Behavior Driven by Surface Morphology Changes Induced by Picosecond Laser Texturing

Carmelo Corsaro,

Gabriele Orlando,

Gabriele Costa

et al.

Abstract: The laser surface texturing (LST) technique has recently been used to enhance adhesion bond strength in various coating applications and to create structures with controlled hydrophobic or superhydrophobic surfaces. The texturing processing parameters can be adjusted to tune the surface’s polarity, thereby controlling the ratio between the polar and dispersed components of the surface free energy and determining its hydrophobic character. The aim of this work is to systematically select appropriate laser and s… Show more

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Cited by 2 publications

References 36 publications

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The Influence of Selected Titanium Alloy Micro-Texture Parameters on Bacterial Adhesion

Szymańska,

Krzywicka,

Kobus

et al. 2024

Materials

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The colonization of microbes and the resulting formation of biofilms on dental implants are significant contributors to peri-implantitis and the failure of these implants. The aim of the research was to analyze the impact of density and depth of laser texturing of the Ti-6Al-7Nb alloy surface on the colonization of selected microorganisms and biofilm formation. Standard strains of Gram-negative and Gram-positive bacteria and yeasts from the American Type Culture Collection—ATCC—were used to demonstrate the ability to form single-species biofilms in vitro. The study evaluated three types of titanium samples with different texture density and depth. The colonization and biofilm formation abilities of the tested microorganisms were assessed. The obtained results were subjected to statistical analysis. Among the analyzed strains, L. rhamnosus showed the highest colonization of the tested surfaces. It was found that there is no relationship between the texture parameters and the number of colony-forming units (CFU/mL) for C. albicans, S. mutans, and L. rhamnosus. For the F. nucleatum strain, it was shown that the number of colony-forming bacteria is related to the texture density.

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The Influence of Selected Titanium Alloy Micro-Texture Parameters on Bacterial Adhesion

Szymańska,

Krzywicka,

Kobus

et al. 2024

Materials

View full text Add to dashboard Cite

show abstract

Multiscale Wettability of Microtextured Irregular Surfaces

Peta

2024

Materials

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Surface microgeometry created by the energy of electric discharges is related to surface wetting behavior. These relationships change depending on the scale of observation. In this work, contact angles correlated with the surface complexity of AA 6060 after electro-discharge machining were analyzed at different observation scales. This research focuses on the methodology of selecting the best scales for observing wetting phenomena on irregular surfaces, as well as indicating the topographic characterization parameters of the surface in relation to the scales. Additionally, the geometric features of the surface that determine the contact angle were identified. In this study, the surfaces of an aluminum alloy are rendered using focus variation 3D microscopy and described by standardized ISO, area-scale, and length-scale parameters. The research also confirms that it is possible to design surface wettability, including its hydrophilicity and hydrophobicity, using electrical discharge machining parameters. The static and dynamic behavior of liquids on surfaces relevant to contact mechanics was also determined.

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Wetting Behavior Driven by Surface Morphology Changes Induced by Picosecond Laser Texturing

Cited by 2 publications

References 36 publications

The Influence of Selected Titanium Alloy Micro-Texture Parameters on Bacterial Adhesion

The Influence of Selected Titanium Alloy Micro-Texture Parameters on Bacterial Adhesion

Multiscale Wettability of Microtextured Irregular Surfaces

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