238 Prakt. Met. Sonderband 46 (2014)
REFERENZEN
[1] Marcus RK, Broekaert JAC. Glow discharge plasmas in analytical spectroscopy.
Chichester, England: J. Wiley; 2003.
[2] Undisz A, Hanke R, Freiberg KE, Hoffmann V, Rettenmayr M. The effect of heating
rate on the surface chemistry of NiTi. Acta Biomaterialia, 2014; accepted.
[3] Undisz A, Schrempel F, Wesch W, Rettenmayr M. Mechanism of oxide layer growth
during annealing of NiTi. Journal of Biomedical Materials Research Part A, 2012;
100A:1743-50.
[4] Freiberg KE, Bremer-Streck S, Kiehntopf M, Rettenmayr M, Undisz A. Effect of
thermomechanical pre-treatment on short- and long-term Ni release from biomedical
NiTi. Acta Biomaterialia, 2014; 10:2290-5.
[5] Undisz A, Reuther K, Reuther H, Rettenmayr M. Occurrence and origin of non-
martensitic acicular artifacts on NiTi. Acta Materialia, 2011; 59:216-24.
[6] Undisz A, Schrempel F, Wesch W, Rettenmayr M. In situ observation of surface oxide
layers on medical grade Ni-Ti alloy during straining. Journal of Biomedical Materials
Research Part A, 2009; 88A:1000-9.
[7] Chan CM, Trigwell S, Duerig T. Oxidation of an Niti Alloy. Surface and Interface
Analysis, 1990; 15:349-54.
[8] Firstov GS, Vitchev RG, Kumar H, Blanpain B, Van Humbeeck J. Surface oxidation of
NiTi shape memory alloy. Biomaterials, 2002; 23:4863-71.