Wyniki wyszukiwania - BazTech

Ograniczanie wyników

Znaleziono wyników: 3

Liczba wyników na stronie

Wyniki wyszukiwania

Wyszukiwano:
w słowach kluczowych: micromechanical properties

Sortuj według:

Ogranicz wyniki do:

Characterization of biomaterials with reference to biocompatibility dedicated for patient-specific finger implants

Byrski Adam, Kopernik Magdalena, Major Lukasz, Kasperkiewicz Katarzyna, Dyner Marcin, Lackner Juergen M., Lumenta David B., Major Roman

Acta of Bioengineering and Biomechanics

2023

Vol. 25, no. 1

3--17

The research was focused on determining basic mechanical properties, surface, and phase structure taking into consideration basic cytotoxicity analysis towards human cells. Methods: Biological tests were performed on human C-12302 fibroblasts cells using 3D-printed Ti6Al4V alloy (Ti64), produced by laser-based powder bed fusion (LB-PBF) and Alumina Toughened Zirconia 20 (ATZ20), produced by lithography-based ceramic manufacturing (LCM). Surface modifications included electropolishing and hydroxyapatite or hydroxyapatite/zinc coating. Structure analysis was carried out using a variety of techniques such as X-Ray diffraction, scanning electron microscopy (SEM), transmission electron microscopy (TEM) and confocal laser scanning microscopy (CLSM), followed by mechanical properties evaluation using nanoindentation testing. Results: Samples subjected to surface modifications showed diversity among surface and phase structure and mechanical properties. However, the cytotoxicity towards tested cells was not significantly higher than the control. Though, a trend was noted among the materials analysed, indicating that HAp/Zn coating on Ti64 and ATZ20 resulted in the best biological performance increasing cell survivability by more than 10%. Conclusions: Hydroxyapatite coating on Ti64 and ATZ20 resulted in the best biological properties. Tested materials are suitable for in vivo toxicity testing.

Effect of Deep Cryogenic Treatment Time on Micromechanical and Tribological Properties of Magnesium Alloys WE43 and WE54

Barylski Adrian, Aniołek Krzysztof

Tribologia

2022

nr 4

7--16

The paper presents the effect of deep cryogenic treatment time on micromechanical and tribological properties of magnesium alloys, WE43 and WE54. The alloys were subjected to deep cryogenic treatment at a liquid nitrogen temperature (-196°C) for 2 to 48h. Tribological tests were performed in a rotational and a reciprocating linear motion, and wear trace studies were performed by profilometric and microscopic measurements. The tests indicate that deep cryogenic treatment has a favourable effect on the micromechanical, mechanical and tribological parameters of the two investigated alloys. It has also been shown that sub-zero treatment time significantly impacts the cryogenic treatment result. Among other things, there was a nearly 10% increase in hardness, Young's modulus, and a 35% reduction in tribological volumetric wear resulting from the improvement in mechanical properties, as well as a 2-fold reduction in linear wear with an increase in sub-zero treatment time relative to the material in its as-delivered state. Deep cryogenic treatment with appropriately selected sub-zero treatment time allows for improving the service life of magnesium alloys with rare earth metals.

W artykule przedstawiono wpływ czasu głębokiej obróbki kriogenicznej na właściwości mikromechaniczne oraz tribologiczne stopów magnezu WE43 i WE54. Stopy poddano głębokiej obróbce kriogenicznej w temperaturze ciekłego azotu (-196°C) w czasie od 2 do 48 h. Testy tribologiczne wykonano w ruchu obrotowym oraz w ruchu posuwisto-zwrotnym liniowym. Badania śladów zużycia wykonano za pomocą pomiarów profilografometrycznych oraz mikroskopowych. Przeprowadzone testy wskazują, że głęboka obróbka kriogeniczna wpływa korzystnie na parametry mikromechaniczne, mechaniczne i tribologiczne obu badanych stopów. Wykazano również, że istotne znaczenie na efekt obróbki kriogenicznej ma czas wymrażania. Stwierdzono między innymi blisko 10% wzrost twardości modułu Younga oraz wynikające z poprawy właściwości mechanicznych – 35% ograniczenie zużycia tribologicznego objętościowego i 2-krotne obniżenie zużycia liniowego wraz ze wzrostem czasu wymrażania w stosunku do materiału w stanie dostawy. Głęboka obróbka kriogeniczna o odpowiednio dobranym czasie wymrażania pozwala na poprawę trwałości eksploatacyjnej stopów magnezu z metalami ziem rzadkich.

The contact problem on a metal indenter penetration into a strongly rough polymer surface

Ihnatouski M. I., Sviridenok A. I.

International Journal of Applied Mechanics and Engineering

2003

Vol. 8, no spec.

43-48

The investigations of the micromechanical properties modification of the polymeric surfaces eroded by the Water-drop Jet had been carried out. The contact area problems on indentation of the metallic rod into the rough surface have been solved. The satisfactory coincidence of a design and an experimental data had been attain.