Ralph Sueptitz scite author profile

The low modulus β-type Ti-45Nb alloy is a promising new implant alloy due to its excellent mechanical biocompatibility and composition of non-toxic elements. The effect of surface treatments on the evolution of controlled topography and roughness was investigated by means of scanning electron microscopy and optical profilometry. Severe mechanical treatments, for example sand-blasting, or etching treatments in strongly oxidizing acidic solutions, like HF:HNO(3) (4:1) or H(2)SO(4):H(2)O(2) (1:1) piranha solution were found to be very effective. In particular, the latter generates a nanopatterned surface topography which is expected to be promising for the stimulation of bone tissue growth. Compared to Ti and Ti-6Al-4V, the β-type Ti-45Nb alloy requires significantly longer etching durations due to the high chemical stability of Nb. Severe surface treatments alter the passive film properties, but do not deteriorate the outstanding corrosion resistance of the Ti-45Nb alloy in synthetic body fluid environments. The Ti-45Nb appears to have a lower apatite-formation ability compared to Ti. Etching with H(2)SO(4):H(2)O(2) (1:1) piranha solution inhibits apatite formation on Ti, but not on Ti-45Nb.

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Magnetic field effect on the anodic behaviour of a ferromagnetic electrode in acidic solutions

Sueptitz

Koza

Uhlemann

et al. 2009

Electrochimica Acta

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How to obtain structured metal deposits from diamagnetic ions in magnetic gradient fields?

Tschulik

Yang

Mutschke

et al. 2011

Electrochemistry Communications

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Impact of magnetic field gradients on the free corrosion of iron

Sueptitz

Tschulik

Uhlemann

et al. 2010

Electrochimica Acta

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Electrodeposition of separated 3D metallic structures by pulse-reverse plating in magnetic gradient fields

Tschulik¹,

Sueptitz²,

Uhlemann³

et al. 2011

Electrochimica Acta

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Ralph Sueptitz

Surface treatment, corrosion behavior, and apatite‐forming ability of Ti‐45Nb implant alloy

Magnetic field effect on the anodic behaviour of a ferromagnetic electrode in acidic solutions

How to obtain structured metal deposits from diamagnetic ions in magnetic gradient fields?

Impact of magnetic field gradients on the free corrosion of iron

Electrodeposition of separated 3D metallic structures by pulse-reverse plating in magnetic gradient fields

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