Poly(ɛ-caprolactone) (PCL) was successfully utilized as hard tissue scaffold because of its proved biocompatibility [25], [26] and [27] and processability properties [28]. Because titanium is a light and corrosion resistant metal, it caught the attention of many scientists, who sought to use it pure or to obtain alloys and was employed successfully in the aerospace, military and chemical industries. These characteristics raised the hypothesis that the material could be used as implant materials since it is biologically safe[29] and [30]. It is noteworthy mentioning that the large surface area of the nanofibers and the high porosity of the electrospun nanofiber mats make the later good candidates for hard tissue engineering purposes if the biological constraints are satisfied. Therefore, combination of these two interesting biomaterials in single nanofiber mats might have good application in the biomedical fields. In this study titanium powder (particle size