Abstract
The microstructural evolution and the strengthening mechanisms in the two quaternary alloys, TNZT (Ti-34Nb-9Zr-8Ta) and TMZF (Ti-13Mo-7Zr-3Fe), and one binary alloy, Ti-15Mo, have been investigated. In the homogenized condition both the quaternary alloys exhibited a microstructure consisting primarily of a β Ti matrix with grain boundary α precipitates and a low volume fraction of primary α precipitates while the binary alloy showed single-phase microstructure with large β grains. On ageing the homogenized alloys at 600 °C for 4 h, all the alloys exhibited the precipitation of refined scale secondary α precipitates distributed homogeneously in the β matrix. However, after ageing while the hardness of TMZF marginally increased, that of the TNZT and Ti-15Mo alloys decreased. Furthermore, the modulus of TNZT decreased while other two alloys showed opposite trends. TEM studies indicate that there is initially a B2 ordering in TNZT that is destroyed after ageing causing a reduction in both hardness and modulus of this alloy. Also in Ti-15Mo, dissolution of ω precipitates on ageing causes the hardness to reduce, while the precipitation of secondary α causes an increase in the modulus. Using these examples, the important influence of thermal processing on the property-microstructure relationships in orthopaedic alloys for implant applications will be highlighted.
Original language | English |
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Pages (from-to) | 357-362 |
Number of pages | 6 |
Journal | Materials Science and Engineering C |
Volume | 25 |
Issue number | 3 |
DOIs | |
State | Published - May 2005 |
Externally published | Yes |
Event | Selected Papers Presented at the Materials Science and Technology 2004 Meeting: Titanium for Biomedical, Dental, and Healthcare - Duration: Sep 26 2004 → Sep 29 2004 |