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\section{Future works}
In order to study the affects of $\alpha$ formation test should be conducted on titanium alloys with varying $\alpha$ stabilizer content and testing what the optimal level of stabilizer are suitable to nucleate desired $\alpha$ content. The affects of the duration of aging as well as temperature of aging should also be studied and a comparison should be made between alloys.
The affect of continuous $\alpha$ formation at the boundaries should also be studied. As written in the understanding section that although having $\alpha$ at boundaries may cuse cracks the same phenomena is responsible for higher dislocation density, which increases strength. It is also necessary to use better technology to pin point the location of $\alpha$ formation. It would also be useful to study titanium alloys with lower number of alloying elements so that the effects of each element on the formation of $\alpha$ particles can be
noticed individually studied without possible interference of other elements in the composition.