Your search keyword '"Boniewicz-Szmyt, Katarzyna"' showing total 5 results

1. Wettability of Metal Surfaces Affected by Paint Layer Covering.

Author

Pogorzelski, Stanislaw, Boniewicz-Szmyt, Katarzyna, Grzegorczyk, Maciej, and Rochowski, Pawel

Subjects

*WETTING, *SURFACE tension, *CONTACT angle, *METALLIC surfaces, *SURFACE roughness, *LIQUID surfaces, *FREE surfaces

Abstract

The aim of the work was to quantify the surface wettability of metallic (Fe, Al, Cu, brass) surfaces covered with sprayed paints. Wettability was determined using the contact angle hysteresis approach, where dynamic contact angles (advancing ΘA and receding ΘR) were identified with the inclined plate method. The equilibrium, ΘY, contact angle hysteresis, CAH = ΘA − ΘR, film pressure, Π, surface free energy, γSV, works of adhesion, WA, and spreading, WS, were considered. Hydrophobic water/solid interactions were exhibited for the treated surfaces with the dispersive term contribution to γSV equal to (0.66–0.69). The registered 3D surface roughness profiles allowed the surface roughness and surface heterogeneity effect on wettability to be discussed. The clean metallic surfaces turned out to be of a hydrophilic nature (ΘY < 90°) with high γSV, heterogeneous, and rough with a large CAH. The surface covering demonstrated the parameters' evolution, ΘA↑, ΘR↑, γSV↓, WA↓, and WS↓, corresponding to the surface hydrophobization and exhibiting base substratum-specific signatures. The dimensionless roughness fluctuation coefficient, η, was linearly correlated to CAH. The CAH methodology based on the three measurable quantities, ΘA, ΘR, and liquid surface tension, γLV, can be a useful tool in surface-mediated process studies, such as lubrication, liquid coating, and thermoflow. [ABSTRACT FROM AUTHOR]

Published

2022

2. Adsorption, Adhesion, and Wettability of Commercially Available Cleansers at Dental Polymer (PMMA) Surfaces.

Author

Pogorzelski, Stanisław, Janowicz, Paulina, Dorywalski, Krzysztof, Boniewicz-Szmyt, Katarzyna, and Rochowski, Paweł

Subjects

*SURFACE tension, *SURFACE energy, *DENTAL materials, *SURFACES (Technology), *FREE surfaces, *CONTACT angle

Abstract

This study aims to evaluate the adsorptive, adhesive, and wetting energetic properties of five commercially available cleansers in contact with model dental polymer (PMMA). It was assumed that the selected parameters allow for determining the optimal concentration and place of key component accumulation for antibacterial activity in the bulk liquid phase and prevention of oral plaque formation at the prosthetic material surface. The adsorptive (Gibbs' excesses ΓLV, critical micellar concentration) and thermal (entropy and enthalpy) surface characteristics originated from surface tension γLV(T) and γLV(C) dependences. The surface wetting properties were quantified upon the contact angle hysteresis formalism on the advancing ΘA, receding ΘR contact angles, and γLV as the input data, which yield a set of wettability parameters: 2D adsorptive film pressure, surface free energy with its dispersive and polar components, work of adhesion, and adhesional tension, considered as interfacial interaction indicators. In particular, molecular partitioning Kp and ΓLV are indicators of the efficiency of particular active substance accumulation in the volume phase, while γSV, a = ΓSL/ΓLV, and WA point to the degree of its accumulation at the immersed polymer surface. Finally, the liquid penetration coefficient PC and the Marangoni temperature gradient-driven liquid flow speed were estimated. [ABSTRACT FROM AUTHOR]

Published

2024

3. Wettability, Adsorption and Adhesion in Polymer (PMMA)—Commercially Available Mouthrinse System.

Author

Pogorzelski, Stanislaw, Janowicz, Paulina, Dorywalski, Krzysztof, Boniewicz-Szmyt, Katarzyna, and Rochowski, Pawel

Subjects

*CONTACT angle, *WETTING, *SURFACE tension, *ADSORPTION (Chemistry), *METHYL methacrylate, *POLYMERS

Abstract

The study concerns the evaluation of the physicochemical and thermo-adsorptive surface properties of six commercially available mouthrinses, particularly surface tension, surface activity, partitioning coefficient, critical micellar concentration, Gibbs excesses at interfaces, surface entropy, and enthalpy. The aim was to quantify their effect on the adhesion and wettability of a model poly(methyl methacrylate) (PMMA) polymer. The adsorptive and thermal surface characteristics were derived from surface tension (γLV) vs. concentration and temperature dependences. Polymer surface wettability was characterized by the contact angle hysteresis (CAH) formalism, using the measurable advancing ΘA and receding ΘR dynamic contact angles and γLV as the input data. Further, wettability parameters: Young static angle (Θ), film pressure (Π), surface free energy (γSV) with its dispersive and polar components, work of adhesion (WA), and adhesional tension (γLV cosΘA) were considered as interfacial interaction indicators. The mouthrinse effect demonstrated the parameter's evolution in reference to the PMMA/pure water case: Θ, ΘA and ΘR↓, CAH↑, Π↓, WA↓, γSV↓, and γLVcosΘA↑. Furthermore, the variations of the surface excess ratio pointed to the formation of multilayered structures of surfactants composing the mouthrinse mixtures considered. The contact angle data allowed for the penetration coefficient and the Marangoni temperature gradient-driven liquid flow speed to be estimated. [ABSTRACT FROM AUTHOR]

Published

2023

4. Micron-Scale Biogeography of Seawater Biofilm Colonies at Submersed Solid Substrata Affected by Organic Matter and Microbiome Transformation in the Baltic Sea.

Author

Grzegorczyk, Maciej, Pogorzelski, Stanislaw, Janowicz, Paulina, Boniewicz-Szmyt, Katarzyna, and Rochowski, Pawel

Subjects

*BIOFILMS, *CARBON content of water, *QUORUM sensing, *ORGANIC compounds, *SEAWATER

Abstract

The aim of this research was to determine temporal and spatial evolution of biofilm architecture formed at model solid substrata submersed in Baltic sea coastal waters in relation to organic matter transformation along a one-year period. Several materials (metals, glass, plastics) were deployed for a certain time, and the collected biofilm-covered samples were studied with a confocal microscopy technique using the advanced programs of image analysis. The geometric and structural biofilm characteristics: biovolume, coverage fraction, mean thickness, spatial heterogeneity, roughness, aggregation coefficient, etc., turned out to evolve in relation to organic matter transformation trends, trophic water status, microbiome evolution, and biofilm micro-colony transition from the heterotrophic community (mostly bacteria) to autotrophic (diatom-dominated) systems. The biofilm morphology parameters allowed the substratum roughness, surface wettability, chromatic organisms colony adaptation to substrata, and quorum sensing or cell to cell signaling effects to be quantitatively evaluated. In addition to the previous work, the structural biofilm parameters could become further novel trophic state indicators. [ABSTRACT FROM AUTHOR]

Published

2022

5. Evolution of natural sea surface film structure as a tool for organic matter dynamics tracing

Author

Mazurek, Z. Adriana, Pogorzelski, J. Stanisław, and Boniewicz-Szmyt, Katarzyna

Subjects

*SEA surface microlayer, *SEA water analysis, *ORGANIC compound content of seawater, *SEAWATER thermodynamics, *MICROSCOPY, *SURFACE active agents, *RHEOLOGY

Abstract

Abstract: The paper contains the results of natural film experiments carried out on inland waters in the Dead Vistula catchment area during 2000–2002 using the integrated Langmuir trough–Wilhelmy plate system. The static film parameters result from the generalized scaling procedures applied to the surface pressure-area isotherms and surface pressure–temperature isochores. They appear to reflect in a quantitative and sensitive way the film composition (A lim, M w, E isoth), film solubility and the miscibility of its components (via R, ΔS c and y factors), kinetic mobility of surfactant molecules (β s, π k), and its surface concentration (π eq, Γ eq). There is a reason to suggest that certain classes of film-forming components or “end-members” may dominate the static and dynamic surface properties. Variation in the surface rheological parameters of source-specific surfactants is postulated to reflect organic matter dynamics in natural waters and were measured for the Dead Vistula river, its tributaries and the adjacent sea coastal area. The obtained results demonstrate that natural films are o complex mixture of biopolymeric molecules covering a wide range of solubilities, surface activities and molecular masses with a complex interfacial architecture. For the first time, the apparent solvent polarity effect on the structure and surface parameters of ex-situ formed natural sea microlayer films was quantitatively evaluated by means of the author''s scaling procedures applied to unique Brewster angle microscopy and Langmuir trough isotherm data on Mediterranean Sea samples obtained by others. [Copyright &y& Elsevier]

Published

2008