Add to ORKGThe results obtained from this work reveal that high porous titanium foams have fracture mechanical properties that meet and exceed the required properties of both cortical and cancellous bones. With their good biocompatibility, light weight, strong structural integrity and possibility of bone in-growth these foams are suitable for biomedical applications
The generation of titanium foams is a promising strategy for modifying the mechanical properties of ...
Synthetic scaffolds are a highly promising new approach to replace both autografts and allografts to...
Metallic biomaterials have so far shown the greatest potential to be the basis of implants for long-...
Pure titanium and some of its alloys are currently considered as the most attractive metallic materi...
The generation of titanium foams is a promising strategy for modifying the mechanical properties of ...
Titanium foams fabricated by a new powder metallurgical process have bimodal pore distribution archi...
Metals are the oldest of biomedical implant materials and metallic alloys remain the material of cho...
Porous metals have been used in various orthopedic applications as coating to promote implant fixati...
Understanding the mechanical behaviour of pure titanium (Ti) foam is crucial for the design and deve...
The generation of titanium foams is a promising strategy for modifying the mechanical properties of ...
Porous titanium (Ti) offers several key attributes as a biomedical material. Among the known charact...
Porous titanium (Ti) offers several key attributes as a biomedical material. Among the known charact...
A new process has been recently developed to produce biocompatible metallic foams using powder mixtu...
People in both developing and developed worlds are increasingly facing musculoskeletal problems that...
Synthetic scaffolds are a highly promising new approach to replace both autografts and allografts to...
The generation of titanium foams is a promising strategy for modifying the mechanical properties of ...
Synthetic scaffolds are a highly promising new approach to replace both autografts and allografts to...
Metallic biomaterials have so far shown the greatest potential to be the basis of implants for long-...
Pure titanium and some of its alloys are currently considered as the most attractive metallic materi...
The generation of titanium foams is a promising strategy for modifying the mechanical properties of ...
Titanium foams fabricated by a new powder metallurgical process have bimodal pore distribution archi...
Metals are the oldest of biomedical implant materials and metallic alloys remain the material of cho...
Porous metals have been used in various orthopedic applications as coating to promote implant fixati...
Understanding the mechanical behaviour of pure titanium (Ti) foam is crucial for the design and deve...
The generation of titanium foams is a promising strategy for modifying the mechanical properties of ...
Porous titanium (Ti) offers several key attributes as a biomedical material. Among the known charact...
Porous titanium (Ti) offers several key attributes as a biomedical material. Among the known charact...
A new process has been recently developed to produce biocompatible metallic foams using powder mixtu...
People in both developing and developed worlds are increasingly facing musculoskeletal problems that...
Synthetic scaffolds are a highly promising new approach to replace both autografts and allografts to...
The generation of titanium foams is a promising strategy for modifying the mechanical properties of ...
Synthetic scaffolds are a highly promising new approach to replace both autografts and allografts to...
Metallic biomaterials have so far shown the greatest potential to be the basis of implants for long-...