Add to ORKGTitanium currently used in biomedical implant applications has shown some limitations, one of the most important being the mismatch between the mechanical properties of bone and the implant. This problem is solved with porous titanium structures to achieve a stiffness similar to that of the surrounding bone to alleviate stress-shielding effects. Since most Titanium implants have a structural function and an intended lifetime of several decades, their fatigue performance is of vital importance. In this work we will study the fatigue life of porous titanium structures, with a certain degree of porosity, obtained through powder metallurgy and space holder technique. Surface modification of the porous titanium will be performed in order to im...
People in both developing and developed worlds are increasingly facing musculoskeletal problems that...
Intervertebral implants should be designed with low load requirements, high friction coefficient and...
The high Young’s modulus of titanium with respect to that one of the bone is the main cause of the s...
Titanium currently used in biomedical implant applications has shown some limitations, one of the mo...
In this work, the fatigue and cellular performance of novel superficially treated porous titanium de...
Due to its good biocompatibility, porous titanium is an interesting material for biomedical applicat...
Titanium and its alloys are reference materials in biomedical applications because of their desirabl...
Additively manufactured porous titanium implants, in addition to preserving the excellent biocompati...
Bio-functionalizing surface treatments are often applied for improving the bioactivity of biomateria...
Porous titanium scaffolds exhibit elastic properties close to that of bone, and they can promote oss...
One of the biggest challenges in the biocompatibility of implantable metals is the prevention of the...
Additively manufactured (AM) porous metallic biomaterials are considered promising candidates for bo...
In the present work, a characterisation project around the EVANS wedges manufactured by AMES Medical...
Porous titanium cylinders were produced with a constant amount of temporary space holder (70 vol.%)....
The excellent properties of Ti have resulted in its generalised use for bone implants. However, Ti i...
People in both developing and developed worlds are increasingly facing musculoskeletal problems that...
Intervertebral implants should be designed with low load requirements, high friction coefficient and...
The high Young’s modulus of titanium with respect to that one of the bone is the main cause of the s...
Titanium currently used in biomedical implant applications has shown some limitations, one of the mo...
In this work, the fatigue and cellular performance of novel superficially treated porous titanium de...
Due to its good biocompatibility, porous titanium is an interesting material for biomedical applicat...
Titanium and its alloys are reference materials in biomedical applications because of their desirabl...
Additively manufactured porous titanium implants, in addition to preserving the excellent biocompati...
Bio-functionalizing surface treatments are often applied for improving the bioactivity of biomateria...
Porous titanium scaffolds exhibit elastic properties close to that of bone, and they can promote oss...
One of the biggest challenges in the biocompatibility of implantable metals is the prevention of the...
Additively manufactured (AM) porous metallic biomaterials are considered promising candidates for bo...
In the present work, a characterisation project around the EVANS wedges manufactured by AMES Medical...
Porous titanium cylinders were produced with a constant amount of temporary space holder (70 vol.%)....
The excellent properties of Ti have resulted in its generalised use for bone implants. However, Ti i...
People in both developing and developed worlds are increasingly facing musculoskeletal problems that...
Intervertebral implants should be designed with low load requirements, high friction coefficient and...
The high Young’s modulus of titanium with respect to that one of the bone is the main cause of the s...