For that, a method based on the molecular orbital theory has been implemented to design three new Ti-Nb-Hf system alloys. A vacuum arc melted button of each alloy was heat treated at 1100 ºC during 2 hours and quenched with a mixture of ethanol/water at 0 ºC. Finally, the alloys were microstructurally and mechanically characterized elastic modulus was obtained as well as the thermoelastic behaviour, which were evaluated by means of nanoindentation tests using a Berkovich and a spherical tip, respectively.

 X-Ray diffraction results show the presence of β phase in the three studied alloys. Moreover, one of the alloys exhibits reversible phase transformation due to the presence of thermoelastic martensitic α” plates inside the β grains observed by transmission electron microscopy. Results show a low elastic modulus in all the studied alloys with values between 70-90 GPa, which are values lower than those of the commercial alloys used in bone implants load transfer.