Improvement of titanium alloy for biomedical applications by nitriding and carbonitriding processes under glow discharge conditions

Improvement of titanium alloy for biomedical applications by nitriding and carbonitriding processes under glow discharge conditions

Although titanium alloys are used in medicine, they present low wear resistance. In this paper we present the results of studies on surface layers produced by nitriding at three different temperatures, and by carbonitriding under glow discharge conditions in order to improve wear resistance, hardnes...

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Bibliographic Details
Published in:Journal of materials science. Materials in medicine Vol. 11; no. 2; pp. 73 - 81
Main Authors: Czarnowska, E, Wierzchoń, T, Maranda-Niedbała, A, Karczmarewicz, E
Format: Journal Article
Language:English
Published: United States Springer Nature B.V 01-02-2000
Subjects:
Animal cell culture
Biocommunications
Biomedical materials
Carbonitriding
Glow discharges
Hardness
Materials science
Metallographic microstructure
Nitriding
Surface topography
Titanium alloys
Wear resistance
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Summary:Although titanium alloys are used in medicine, they present low wear resistance. In this paper we present the results of studies on surface layers produced by nitriding at three different temperatures, and by carbonitriding under glow discharge conditions in order to improve wear resistance, hardness, and to modulate microstructure and chemical composition of surface layers. A cell culture model using human fibroblasts was chosen to study the effect of such treatments on the cytocompatibility of these materials. The results showed that nitrided and carbonitrided surface layers were cytocompatible. Modulation of surface microstructure by temperature in the nitriding process and chemical composition of surface layers by carbonitriding led to differences in cellular behaviour. Cell proliferation appeared to be slightly reduced from the 6th day of culture on nitrided surfaces produced at 730 degrees C and 1000 degrees C, however after 12 days of culture, the best growth was on surface layers produced at 850 degrees C. The best viability was observed on the carbonitrided layer. The orientation and shape of the cells corresponded to surface topography. Nitriding and carbonitriding under glow discharge conditions may constitute interesting techniques allowing the formation of surface layers on parts with sophisticated shapes. They may also permit modulating surface topography in a way improving the features of titanium alloys for various applications in medicine.
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ISSN:0957-4530
1573-4838
DOI:10.1023/A:1008980631780