Add to ORKGThe Ti6Al4V alloy is already well-known likely material for implant applications. As well as pure titanium, Ti6Al4V alloy possess the ability to form spontaneously a thin passive oxide layer on the surface. This oxide layer provides an enhanced biocompatibility and may be optimum for the osseointegration if it is applied a tailoring of the surface topology and chemistry. The present paper addresses a study of Ti6Al4V surface modification by anodization as function of HF concentration in electrolyte and time, with the purpose to achieve an ordered porous titanium oxide layer. Prior to the anodization treatment the as-prepared surfaces were microstructurally characterized by SEM, EDX and XRD. The oxidized surfaces were subjected to SEM measur...
Commercially pure Ti and Ti6Al4V are the most widely used metallic biomaterials for orthopaedic appl...
Abstract: Competitive manufacturing implies fit for purpose and efficient manufacturing practices. D...
Titanium and its alloys have become the biomaterial of choice for orthopaedic applications due to th...
Titanium is a metallic biomaterial having multidimensional properties, highly sophisticated function...
Due to their excellent biocompatibility, titanium alloys ...
Among all biomaterials used for bone replacement, it is recognized that both commercially pure tita...
Among all biomaterials used for bone replacement, it is recognized that both commercially pure titan...
Titanium and its alloys are among widely used biomaterials, particularly in the field of orthopedics...
In recent years, nanostructured oxide films on titanium alloy surfaces have gained significant inter...
Commercially pure titanium (cpTi) and titanium alloys are metallic implant materials usually used in...
International audienceSurface treatments are considered as a good alternative to increase biocompati...
International audienceSurface treatments are considered as a good alternative to increase biocompati...
In recent years, nanostructured oxide films on titanium alloy surfaces have gained significant inter...
Nanoporous titanium dioxide (TiO2) layers were successfully formed by an electrochemical anodisation...
Titanium and its alloys are the most popular metals applied on end osseous implants manufacturing. C...
Commercially pure Ti and Ti6Al4V are the most widely used metallic biomaterials for orthopaedic appl...
Abstract: Competitive manufacturing implies fit for purpose and efficient manufacturing practices. D...
Titanium and its alloys have become the biomaterial of choice for orthopaedic applications due to th...
Titanium is a metallic biomaterial having multidimensional properties, highly sophisticated function...
Due to their excellent biocompatibility, titanium alloys ...
Among all biomaterials used for bone replacement, it is recognized that both commercially pure tita...
Among all biomaterials used for bone replacement, it is recognized that both commercially pure titan...
Titanium and its alloys are among widely used biomaterials, particularly in the field of orthopedics...
In recent years, nanostructured oxide films on titanium alloy surfaces have gained significant inter...
Commercially pure titanium (cpTi) and titanium alloys are metallic implant materials usually used in...
International audienceSurface treatments are considered as a good alternative to increase biocompati...
International audienceSurface treatments are considered as a good alternative to increase biocompati...
In recent years, nanostructured oxide films on titanium alloy surfaces have gained significant inter...
Nanoporous titanium dioxide (TiO2) layers were successfully formed by an electrochemical anodisation...
Titanium and its alloys are the most popular metals applied on end osseous implants manufacturing. C...
Commercially pure Ti and Ti6Al4V are the most widely used metallic biomaterials for orthopaedic appl...
Abstract: Competitive manufacturing implies fit for purpose and efficient manufacturing practices. D...
Titanium and its alloys have become the biomaterial of choice for orthopaedic applications due to th...