Powder metallurgy with space holder for porous titanium implants: A review

“…Additional improvement of osseointegration can be obtained by modifying the material with bioactive phases, enabling creation bonding with tissue of a chemical nature. Connection between the bone and the implant is more important for the vascular system than the size of the pores, because it determines both the number and size of blood vessels [55,56].…”

“…Therefore, the aim is to produce porous titanium structures in which the percentage of porosity is controlled in order to reduce the stiffness of the implant without adversely affecting its mechanical properties. In general, the mechanical properties of the porous structure decrease with increasing porosity [55]. The mechanical strength of porous titanium decreases dramatically with the increase of porosity, which on the other hand is a necessary condition for the ingrowth of new bone tissues and vascularization [58].…”

“…Porous structures are ideal surfaces because they significantly reduce the stiffness of the implant compared to flexible materials [59]. As a result of the improved transfer of stresses between the implant and the bone through porous structures, a greater biological adhesion between the implant and the tissue is obtained [55]. In this way, osseointegration is facilitated as a larger clamping surface is provided [60].…”

“…In this way, osseointegration is facilitated as a larger clamping surface is provided [60]. Moreover, the porous biomaterial enables the recruitment and penetration of cells from the surrounding bone tissue into its structure, promoting bone regeneration and vascularisation [55,61]. A study on male Sprague-Dawley rats showed that the biological stabilization of the implant was influenced by the porosity of the titanium implants (25%, 11%, and 3%).…”

Contemporary Approach to the Porosity of Dental Materials and Methods of Its Measurement

“…Additional improvement of osseointegration can be obtained by modifying the material with bioactive phases, enabling creation bonding with tissue of a chemical nature. Connection between the bone and the implant is more important for the vascular system than the size of the pores, because it determines both the number and size of blood vessels [55,56].…”

“…Therefore, the aim is to produce porous titanium structures in which the percentage of porosity is controlled in order to reduce the stiffness of the implant without adversely affecting its mechanical properties. In general, the mechanical properties of the porous structure decrease with increasing porosity [55]. The mechanical strength of porous titanium decreases dramatically with the increase of porosity, which on the other hand is a necessary condition for the ingrowth of new bone tissues and vascularization [58].…”

“…Porous structures are ideal surfaces because they significantly reduce the stiffness of the implant compared to flexible materials [59]. As a result of the improved transfer of stresses between the implant and the bone through porous structures, a greater biological adhesion between the implant and the tissue is obtained [55]. In this way, osseointegration is facilitated as a larger clamping surface is provided [60].…”

“…In this way, osseointegration is facilitated as a larger clamping surface is provided [60]. Moreover, the porous biomaterial enables the recruitment and penetration of cells from the surrounding bone tissue into its structure, promoting bone regeneration and vascularisation [55,61]. A study on male Sprague-Dawley rats showed that the biological stabilization of the implant was influenced by the porosity of the titanium implants (25%, 11%, and 3%).…”

Contemporary Approach to the Porosity of Dental Materials and Methods of Its Measurement

“…Details in these resulting parts can be further worked by machining [6], generally resulting in a certain amount of excess material. Despite these much extended industrial methods, in case of special needs like controlled microstructures, avoiding waste material, complex shapes, etc., powder metallurgy (PM) is an interesting option [7].…”

Capacitor Electrical Discharge Consolidation of Metallic Powders—A Review

Physical and Mechanical Properties of Powder-Metallurgy-Processed Titanium Alloys and Composites: A Comparative Analysis