Problematyka doboru własności stopu NiTi do zastosowań w chirurgii rekonstrukcyjnej

• Autorzy: Kaczmarek M.

Warianty tytułu

EN

Issues of properties selection of NiTi alloy applied in operational cardiology and urology

• Języki publikacji: PL

Słowa kluczowe

PL

stop Ni-Ti; chirurgia rekonstrukcyjna

EN

NiTi alloy; operational cardiology; operational urology

• Wydawca: Polish Society for Biomaterials in Cracow
• Czasopismo: Engineering of Biomaterials
• Rocznik: 2007
• Tom: Vol. 10, no. 65-66
• Strony: 55--56
• Opis fizyczny: Bibliogr. 15 poz.

Twórcy

autor

Kaczmarek M.

• Instytut Materiałów Inżynierskich i Biomedycznych, Politechnika Śląska

Bibliografia

• [1] Z. Paszenda, J. Tyrlik-Held, J. Marciniak, A. Włodarczyk, Corrosion resistance of Cr-Ni-Mo steel intended for implants used in operative cardiology, Proceedings of the 9th International Scientific Conference .”Achievements in Mechanical and Materials Engineering 2000", Gliwice-Sopot-Gdańsk, 2000,425-428.
• [2] J. Szewczenko, J. Marciniak, Corrosion of Cr-Ni-Mo steel implants electrically stimulated, Journal of Materials Processing Technology, 175, 2006, 404-410.
• [3] W. Walke, Z. Paszenda, J. Tyrlik-Held, Corrosion resistance and chemical composition investigations of passive layer on the implants surface of Co-Cr-W-Ni alloy, Journal of Achievements in Materials and Manufacturing Engineering, 2006, vol. 16,1-2, 74-79.
• [4] W. Chrzanowski, Corrosion behavior of Ti6AI7Nb alloy after different surface treatments, Journal of Achievements in Material and Manufacturing Engineering, Vol 18, Issue 1-2, September October 2006, 67-70.
• [5] W. Kajzer, A. Krauze, W. Walke, J. Marciniak, Corrosion resistance of Cr-Ni-Mo steel in simulated body fluids, Journal of Achievements in Materials and Manufacturing Engineering, vol. 18(1-2), 2006, 115-118.
• [6] E. Krasicka-Cydzik, K. Kowalski, I. Glazowska, Electrochemical formation of bioactive surface layer on titanium, Journal of Achievements in Materials and Manufacturing Engineering, vol. 18(1-2), 2006, 147-150.
• [7] A. Krauze, A. Ziębowicz, J. Marciniak, Corrosion resistance of intramedullary nails used in elastic osteosynthesis of children, Journal of Achievements in Materials and Manufacturing Engineering, vol. 13, 355-358
• [8] S. A. Shabalovskaya, Surface, corrosion and biocompatibility aspects of Nitinol as an implant material, Bio-Medical Materials and Engineering 12 (2002) 69-109,
• [9] F J Gil, J A Planell: Shape memory alloys for medical applications, Proc Instn Mech Engrs Vol 212 Part H, 473-488.
• [10] H. Yang, L. Qian, Z. Zhou, X. Ju, H. Dong, Effect of surface treatment by ceramic conversion on the fretting behavior of NiTi shape memory alloy, Tribology Letters Volume: 25, Issue: 3, March 2007, pp. 215-224.
• [11] C.L Chu, C.Y. Chung, P.K. Chu, Surface oxidation of NiTi shape memory alloy in a boiling aqueous solution containing hydrogen peroxide, Materials Science & Engineering A Volume: 417, Issue: 1-2, February 15, 2006, pp. 104-109.
• [12] J. Wang, N. Li, G. Rao, E. Han, W. Ke, Stress corrosion cracking of NiTi in artificial saliva, Dental Materials Volume: 23, Issue: 2, February, 2007, pp. 133-137.
• [13] M.H. Wong, FT. Cheng, G.K.M. Pang, H.C. Man, Characterization of oxide film formed on NiTi by laser oxidation, Materials Science & Engineering A Volume: 448, Issue: 1-2, March 15,2007, pp. 97-103.
• [14] A. Michiardi, C. Aparicio, J.A. Planell, F.J. Gil, Electrochemical behaviour of oxidized NiTi shape memory alloys for biomedical applications, Surface & Coatings Technology Volume: 201, Issue: 14, April 2, 2007, pp. 6484-6488.
• [15] X. Ju, H. Dong, Plasma surface modification of NiTi shape memory alloy, Surface & Coatings Technology Volume: 201, Issue: 3-4, October 5, 2006, pp. 1542-1547.