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DEVELOPMENT FOR NEXT GENERATION LOW WEAR ARTICULATIONS



Abstract

Introduction: Alumina exhibits excellent hardness and wear properties, however it is a brittle material with an inherent risk of fracture. Therefore, the feasibility of a new family of Alumina based ceramics with improved toughness for hip joint articulation applications was investigated.

Materials and methods: The addition of 25% Zirconia to Alumina during the manufacturing process to achieve the objective has been proposed. Two types of Zirconia Toughened Alumina (ZTA) ceramics were analysed; one binary and the other pentary by composition. Following tests were used: structural analysis, mechanical testing of components, determination of hardness (HV), fl exural strength (ASTM C1161), indentation fracture toughness, X-ray diffraction (XRD), aging (accelerated and real-time) and wear simulator testing. The test data was analysed by descriptive statistics.

Results: The structure of the two ZTAs is similar with small-grained Zirconia dispersed in a matrix of larger grained Alumina. X-ray diffraction analysis showed no phase transformation after accelerated and real-time aging and the strength values did not change. Flexural strength was statistically significant increased by > 50% over Alumina. The indentation fracture toughness was also increased by up to 50% while the hardness of the ZTA ceramics was not affected. The wear testing showed that ZTA – ZTA couples articulating against themselves produce not significant lower wear than Alumina – Alumina couples, but the combination of ZTA ball-heads with Alumina inserts produced significantly lower wear rates, also in micro-separation.

Conclusions: The toughness and bending strength of the Alumina was successfully increased while all other properties of the Alumina were maintained. No change in properties after aging was observed and the wear properties of the ZTA were lower wear than for Alumina. Zirconia Toughened Alumina looks promising for the next generation of fracture and wear resistant ceramic bearings.

The abstracts were prepared by Nico Verdonschot. Correspondence should be addressed to him at Orthopaedic Research Laboratory, University Medical Centre, PO Box 9101, 6500 HB Nijmegen, The Netherlands.