Stability of a cyclically loaded hydroxyapatite coating: effect of substrate material, surface preparation, and testing environment

Stability of a cyclically loaded hydroxyapatite coating: effect of substrate material, surface preparation, and testing environment

Cyclic loading of Ti-6-4 and Co-Cr-Mo (cast) test samples with grit-blasted or waffle-textured surfaces coated with a plasma-sprayed 50-mum HA layer was performed in air, Ringer's solution (5% dextrose), 0.9% NaCl (Tris buffer, pH 7.40), and balanced Hank's solution. Maximum interfacial st...

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Bibliographic Details
Published in:Journal of applied biomaterials Vol. 3; no. 3; p. 211
Main Authors: Kummer, F J, Jaffe, W L
Format: Journal Article
Language:English
Published: United States 1992
Subjects:
Chromium - chemistry
Cobalt - chemistry
Humans
Hydroxyapatites - chemistry
Materials Testing
Molybdenum - chemistry
Prostheses and Implants
Stress, Mechanical
Surface Properties
Titanium - chemistry
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Summary:Cyclic loading of Ti-6-4 and Co-Cr-Mo (cast) test samples with grit-blasted or waffle-textured surfaces coated with a plasma-sprayed 50-mum HA layer was performed in air, Ringer's solution (5% dextrose), 0.9% NaCl (Tris buffer, pH 7.40), and balanced Hank's solution. Maximum interfacial stresses in bending of 40 ksi (280 MPa) and 20 ksi (140 MPa) were utilized, and the specimens tested to 10 6 cycles at 5 Hz with a MTS servohydraulic machine. Tested samples were examined by optical microscopy to determine coating integrity and thickness and by scanning electron microscopy (electron backscatter mode and EDAX) to determine surface morphology and chemical changes. The following observations were made: (1) Samples cyclically tested in solutions showed a general thinning of the coating, accentuated in the higher-stressed regions. (2) Samples tested with an equivalent static load in the solutions did not show this centralization. (3) Bare metal interface surfaces were noted on most of the edges of highly stressed central specimen regions, in several entire central regions, and on the upper surfaces of some of the waffled samples. (4) The specimens tested in Ringer's solution (pH 4.70 initially) demonstrated the most dramatic coating deterioration. (5) The coatings on titanium appeared more stable than these on Co-Cr as tested in all solution environments for both surface types. The HA coating evaluated in this experiment demonstrated increased instability when cyclically loaded in in vitro solutions of lowered pH and depleted cations (Ca 2+) at stress levels of 280 MPa.
ISSN:1045-4861
DOI:10.1002/jab.770030308