Your search keyword '"Mazur, Michał"' showing total 15 results

1. Optical and structural properties of silicon nitride thin films deposited by plasma enhanced chemical vapor deposition for high reflectance optical mirrors

Author

Lequime, Michel, Ristau, Detlev, Saunders, Kirstin, Mazur, Michał, Clark, Caspar, Gibson, Des, and Garcia Nuñez, Carlos

Published

2024

2. Influence of magnetron powering mode on various properties of TiO2thin films

Author

Wiatrowski, Artur, Mazur, Michał, Obstarczyk, Agata, Kaczmarek, Danuta, Pastuszek, Roman, Wojcieszak, Damian, Grobelny, Marcin, and Kalisz, Małgorzata

Abstract

In this paper, comparative studies on the structural, surface, optical, mechanical and corrosion properties of titanium dioxide (TiO2) thin films deposited by continuous and sequential magnetron sputtering processes were presented. In case of continuous process, magnetron was continuously supplied with voltage for 90 min. In turn, in sequential process, the voltage was supplied for 1 s alternately with 1 s break, therefore, the total time of the process was extended to 180 min. The TiO2thin films were crack free, exhibited good adherence to the substrate and the surface morphology was homogeneous. Structural analysis showed that there were no major differences in the microstructure between coatings deposited in continuous and sequential processes. Both films exhibited nanocrystalline anatase structure with crystallite sizes of ca. 21 nm. Deposited coatings had high transparency in the visible wavelength range. Significant differences were observed in porosity (lower for sequential process), scratch resistance (better for sequential process), mechanical performance, i.e. hardness:elastic modulus ratio (higher for sequential process) and corrosion resistance (better for sequential process).

Published

2018

3. Modelling and Simulation of a New Variable Stiffness Holder for Milling of Flexible Details

Author

Kaliński, Krzysztof J., Galewski, Marek A., Mazur, Michał, and Chodnicki, Marek

Abstract

Modern industry expectations in terms of milling operations often demand the milling of the flexible details by using slender ball-end tools. This is a difficult task because of possible vibration occurrence. Due to existence of certain conditions (small depths of cutting, regeneration phenomena), cutting process may become unstable and self-excited chatter vibration may appear. Frequency of the chatter vibration is close to dominant natural frequency of the workpiece or the tool. One of the methods of chatter vibration avoidance is matching the spindle speed to the optimum phase shift between subsequent cutting edges passes (i.e. the Liao-Young condition). However, the set of optimum spindle speeds from the point of view of vibration reduction may be not optimum one from other points of view. For example milling efficiency or machine tool capabilities cannot be assured. This article presents the idea of a workpiece holder with adjustable stiffness and discusses a new variant of its realization. In the holder, milling process is performed at constant spindle speed and feed speed. In order to avoid vibration the holder stiffness is modified. Stiffness changes modify natural frequencies of the workpiece and thus it is possible to modify dynamic properties of the workpiece in such a way that arbitrary chosen, constant spindle speed will be optimum, due to the Liao-Young condition performance. Calculation of the optimum stiffness is performed before milling, based on the workpieces modal identification results and the finite element model simulations.

Published

2017

4. An impact of the copper additive on photocatalytic and bactericidal properties of TiO2thin films

Author

Wojcieszak, Damian, Mazur, Michał, Kaczmarek, Danuta, Poniedziałek, Agata, and Osękowska, Małgorzata

Abstract

The biological and photocatalytic activity of TiO2and TiO2:Cu in relation to their structure, surface topography, wettability and optical properties of the thin films was investigated. Thin-film coatings were prepared by magnetron sputtering method in oxygen plasma with use of metallic targets (Ti and Ti-Cu). The results of structural studies revealed that addition of Cu into titania matrix (during the deposition process) resulted in obtaining of an amorphous film, while in case of undoped TiO2, presence of nanocrystalline anatase (with crystallites size of 20 nm) was found. Moreover, an addition of cooper had also an effect on surface diversification and decrease of its hydrophilicity. The roughness of TiO2:Cu film was 25 % lower (0.6 nm) as-compared to titania (0.8 nm). These modifications of TiO2:Cu had an impact on the decrease of its photocatalytic activity, probably as a result of the active surface area decrease. Antibacterial and antifungal properties of the thin films against bacteria (Enterococcus hirae, Staphylococcus aureus, Bacillus subtilis, Escherichia coli) and yeast (Candida albicans) were also examined. For the purpose of this work the method dedicated for the evaluation of antimicrobial properties of thin films was developed. It was revealed that Cu-additive has a positive impact on neutralization of microorganisms.

Published

2017

5. Effect of the structure on biological and photocatalytic activity of transparent titania thin-film coatings

Author

Wojcieszak, Damian, Mazur, Michał, Kaczmarek, Danuta, Poniedziałek, Agata, Domanowski, Piotr, Szponar, Bogumiła, Czajkowska, Aleksandra, and Gamian, Andrzej

Abstract

In this work, the effect of titanium dioxide (TiO2) thin film microstructure on photocatalytic and biological activity was described. The films were prepared by low-pressure and high-energy magnetron sputtering processes. The structural investigations performed by X-ray diffraction revealed that the films from both the processes were nanocrystalline. It was found that TiO2prepared by low-pressure process had the anatase structure with crystallites in size of 20 nm, while the film deposited in high-energy process had the rutile form with crystallites in size of 5 nm. The analysis of surface topography with the aid of optical profiler showed that all prepared films were homogenous and their roughness was lower than 1 nm. The wettability studies revealed hydrophilic nature of both films. The values of water contact angle obtained for anatase and rutile films were equal to 40° and 49°, respectively. Both types of the thin films were photocatalitycally active, but rutile exhibited higher decomposition rate as compared to anatase. During the photocatalytic reaction in the presence of TiO2-rutile film after 12 hours of UV-Vis irradiation 30 % of phenol was decomposed, whereas in case of TiO2-anatase it was only 10 %. Moreover, the influence of as-deposited coatings on the growth of selected microbes (Staphylococcus aureus, Escherichia coli, Candida albicans) was examined. It was found that the structural properties of TiO2had an effect on biological activity of these films.

Published

2016

6. Influence of plasma treatment on wettability and scratch resistance of Ag-coated polymer substrates

Author

Wojcieszak, Damian, Poniedziałek, Agata, Mazur, Michał, Domaradzki, Jarosław, Kaczmarek, Danuta, and Dora, Jerzy

Abstract

Rapid progress in thin-film coatings based on metals, which can be deposited on polymers, has been recently observed. In this work discussion on the properties of modified polymers and silver thin films deposited on polytetrafluoroethylene (PTFE) and polycarbonate (PC) substrates has been presented. Surface of these polymer substrates were exposed to argon plasma discharge. Additionally, silver thin films were deposited on their surface by electron beam evaporation method. The surfaces of the modified polymers were studied by different methods, i.e. topography, wettability and scratch resistance measurements were performed. The ageing effect of treated substrates was also discussed. It was shown that plasma modification of PTFE and PC substrates increased wettability of their surfaces. The value of water contact angle decreased of about 40 % and 25 % for PTFE and PC surface, respectively. The change of hydrophobic to hydrophilic properties was observed. Plasma modification of substrates improved adhesion between silver coating and polymer substrates. However, it did not influence wettability of Ag coating.

Published

2016

7. Identification of Kinematic Excitation Function by the Modal Coordinates Estimation of the System's Dynamics

Author

Kaliński, Krzysztof J. and Mazur, Michał

Abstract

The paper presents a method of the kinematic excitation courses’ identification in excitation points, based on the car road test acceleration at different measurement points. For the purpose of the laboratory fatigue life investigation of contemporary complex structures (e.g. cars bodies) and components of these structures (i.e. cars roofs), only a few first vibration modes are usually taken into account. During real life tests (i.e. road tests), accelerations at the selected points and along the defined directions are recorded and preprocessed appropriately. Subsequently, appropriate information about the measured acceleration allows us to identify such kinematic excitation function on the laboratory stand, whose result is the same as during the real road test. Thanks to the proposed approach, further time-consuming fatigue experiments can be performed on the laboratory stand.

Published

2016

8. Influence of nanocrystalline structure and surface properties of TiO2thin films on the viability of L929 cells

Author

Osękowska, Małgorzata, Karuga-Kuźniewska, Ewa, Wojcieszak, Damian, Mazur, Michał, Poniedziałek, Agata, Kaczmarek, Danuta, Szymonowicz, Maria, and Rybak, Zbigniew

Abstract

In this work the physicochemical and biological properties of nanocrystalline TiO2thin films were investigated. Thin films were prepared by magnetron sputtering method. Their properties were examined by X-ray diffraction, photoelectron spectroscopy, atomic force microscopy, optical transmission method and optical profiler. Moreover, surface wettability and scratch resistance were determined. It was found that as-deposited coatings were nanocrystalline and had TiO2-anatase structure, built from crystallites in size of 24 nm. The surface of the films was homogenous, composed of closely packed grains and hydrophilic. Due to nanocrystalline structure thin films exhibited good scratch resistance. The results were correlated to the biological activity (in vitro) of thin films. Morphological changes of mouse fibroblasts (L929 cell line) after contact with the surface of TiO2films were evaluated with the use of a contrast-phase microscope, while their viability was tested by MTT colorimetric assay. The viability of cell line upon contact with the surface of nanocrystalline TiO2film was comparable to the control sample. L929 cells had homogenous cytoplasm and were forming a confluent monofilm, while lysis and inhibition of cell growth was not observed. Moreover, the viability in contact with surface of examined films was high. This confirms non-cytotoxic effect of TiO2film surface on mouse fibroblasts.

Published

2015

9. Mechanical and structural properties of titanium dioxide deposited by innovative magnetron sputtering process

Author

Wojcieszak, Damian, Mazur, Michał, Indyka, Joanna, Jurkowska, Aleksandra, Kalisz, Małgorzata, Domanowski, Piotr, Kaczmarek, Danuta, and Domaradzki, Jarosław

Abstract

Titanium dioxide thin films were prepared using two types of magnetron sputtering processes: conventional and with modulated plasma. The films were deposited on SiO2and Si substrates. X-ray diffraction measurements of prepared coatings revealed that the films prepared using both methods were nanocrystalline. However, the coatings deposited using conventional magnetron sputtering had anatase structure, while application of sputtering with modulated plasma made possible to obtain films with rutile phase. Investigations performed with the aid of scanning electron microscope showed significant difference in the surface morphology as well as the microstructure at the thin film cross-sections. The mechanical properties of the obtained coatings were determined on the basis of nanoindentation and abrasion resistance tests. The hardness was much higher for the films with the rutile structure, while the scratch resistance was similar in both cases. Optical properties were evaluated on the basis of transmittance measurements and showed that both coatings were well transparent in a visible wavelength range. Refractive index and extinction coefficient were higher for TiO2with rutile structure.

Published

2015

10. Influence of the structural and surface properties on photocatalytic activity of TiO2:Nd thin films

Author

Wojcieszak, Damian, Mazur, Michał, Kaczmarek, Danuta, Morgiel, Jerzy, Poniedziałek, Agata, Domaradzki, Jarosław, and Czeczot, Aleksandra

Abstract

Titanium dioxide thin films doped with the same amount of neodymium were prepared using two different magnetron sputtering methods. Thin films of anatase structure were deposited with the aid of Low Pressure Hot Target Magnetron Sputtering, while rutile coatings were manufactured using High Energy Reactive Magnetron Sputtering process. The thin films composition was determined by energy dispersive spectroscopy and the amount of the dopant was equal to 1 at. %. Structural properties were evaluated using transmission electron microscopy and revealed that anatase films had fibrous structure, while rutile had densely packed columnar structure. Atomic force microscopy investigations showed that the surface of both films was homogenous and consisted of nanocrystalline grains. Photocatalytic activity was assessed based on the phenol decomposition. Results showed that both thin films were photocatalytically active, however coating with anatase phase decomposed higher amount of phenol. The transparency of both thin films was high and equal to ca. 80% in the visible wavelength range. The photoluminescence intensity was much higher in case of the coating with rutile structure.

Published

2015

11. High Speed Milling Vibration Surveillance with Optimal Spindle Speed Based on Optimal Speeds Map

Author

Kalinski, Krzysztof J., Galewski, Marek A., and Mazur, Michał R.

Abstract

The paper presents the method of the surveillance of the self-excited chatter vibration. At first, the workpiece modal parameters are estimated based on experimental data which leads to verification of computational model. Then, for selected surface points optimal spindle speeds are calculated. By considering sufficient amount of points it is possible to build a map of optimal spindle speeds. Experimental results show that this map may be used effectively for eliminating chatter in case of the process of ball end milling of a curved flexible detail.

Published

2013

12. The Optimal Spindle Speed Map for Reduction of Chatter Vibration during Milling of Bow Thruster Blade

Author

Kaliński, Krzysztof J., Mazur, Michał, and Galewski, Marek A.

Abstract

The milling process considered in the paper is a finishing milling of ship bow thruster. It is really challenging task because this kind of object can be prone to vibration, and due to certain conditions, the self-excited chatter vibration may appear [. One of the methods of the chatter reduction depends upon the selection of the spindle speed by matching it to the optimal phase shift between subsequent passes of the tool cutting edges [. However, in case of complex-shaped objects there may be different values of optimal spindle speeds for various points of the workpiece surface. The paper presents an example of implementation of the procedure of building the optimal spindle speed map [. In order to create the map for specific surface points, optimal spindle speed is obtained with the use of various modal analysis techniques. The map seems to be effective way for eliminating chatter in case of the process of milling flexible details.

Published

2013

13. Structural and surface properties of TiO2 thin films doped with neodymium deposited by reactive magnetron sputtering

Author

Mazur, Michał, Kaczmarek, Danuta, Domaradzki, Jarosław, Wojcieszak, Damian, Mazur, Piotr, and Prociow, Eugeniusz

Abstract

Thin films were deposited using modified, high energy magnetron sputtering method from Ti-Nd mosaic targets. The amount of neodymium dopant incorporated into two sets of thin films was estimated to be 0.8 and 8.5 at.%, by means of energy dispersive spectroscopy. On the basis of x-ray diffraction method, the type of crystalline structure and crystallites size were evaluated directly after the deposition process and after additional post-process annealing at 800 °C temperature. The influence of annealing on the surface properties was evaluated with the aid of atomic force microscopy. Uniformity of the dopant distribution in titanium dioxide matrix was examined with the aid of secondary ion mass spectroscopy. Additionally, using atomic force microscope, diversification and roughness of the surface was determined. Chemical bonds energy at the surface of TiO2:Nd thin films was investigated by x-ray photoelectron spectroscopy method. Wettability measurements were performed to determine contact angles, critical surface tensions and surface free energy of prepared coatings. On the basis of performed investigations it was found, that both factors, the amount of neodymium dopant and the post-process annealing, fundamentally influenced the physicochemical properties of prepared thin films.

Published

2013

14. Photocatalytic properties of transparent TiO2 coatings doped with neodymium

Author

Wojcieszak, Damian, Kaczmarek, Danuta, Domaradzki, Jarosław, Mazur, Michał, Morawski, Antoni W., Janus, Magdalena, Prociów, Eugenius, and Gemmellaro, Pietro

Abstract

In this work photocatalytic properties of TiO2 thin fi lms doped with 8.51 at. % of Nd were described. The self-cleaning phenomenon of thin fi lms was discussed together with the structural, optical and surface properties of prepared thin fi lms. Transparent coatings based on titanium dioxide were manufactured by high-energy reactive magnetron sputtering process. Incorporation of Nd during sputtering process results in amorphous behavior, without a signifi cant infl uence on transparency and colour as compared to the undoped TiO2-rutile matrix. Nevertheless, doping with neodymium doubles the photocatalytic activity of the matrix due to higher quantity of photo-generated charge carriers and more effi cient mechanism of energy transfer.

Published

2012

15. Characterization and properties of multicomponent oxide thin films with gasochromic effect

Author

Szczepanski, Pawel, Kisiel, Ryszard, Romaniuk, Ryszard S., Domaradzki, Jaroslaw, Baniewicz, Kosma, Mazur, Michał, Wojcieszak, Damian, and Kaczmarek, Danuta

Published

2013