Add to ORKGDegeneration of the weight bearing bones of the ageing population often requires the inception of metallic biomaterials. Research in this area is receiving increased attention globally. However, most of today\u27s artificial bone materials are dense and suffer from problems of adverse reaction, biomechanical mismatch and lack of appropriate space for the regeneration of new bone tissues. In the present study, novel ZrTi alloy foams with a porous structure and mechanical properties that are very close to those of bone were fabricated. These ZrTi alloy foams are biocompatible, and display a porous structure permitting the ingrowth of new bone tissues.<br /
The regeneration of extended bone defects is a serious concern and the number of patients affected ...
Metal implants are a type of hard tissue replacement currently used. Metals used for implants includ...
Pure titanium and some of its alloys are currently considered as the most attractive metallic materi...
Bone injuries and failures often require the inception of implant biomaterial. Research in this area...
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...
The objective of the presented work is to develop novel porous, near-net shaped foam structures for ...
Almost all currently available implants for bone defect reconstruction in load bearing applications ...
Combination of open celled metal foams with high strength mineral bone cements opens new opportuniti...
Bone replacement of large defects (e.g. due to osteoporotic fractures) is an urgent clinical problem...
The longevity and mechanical properties of biomaterials in the high load-bearing applications of ort...
The generation of titanium foams is a promising strategy for modifying the mechanical properties of ...
The generation of titanium foams is a promising strategy for modifying the mechanical properties of ...
Porous metallic scaffolds have recently gained recognition as a promising avenue toward the regenera...
Until now, it was hardly possible to manufacture real bone-looking synthetic bone replacement materi...
The regeneration of extended bone defects is a serious concern and the number of patients affected ...
Metal implants are a type of hard tissue replacement currently used. Metals used for implants includ...
Pure titanium and some of its alloys are currently considered as the most attractive metallic materi...
Bone injuries and failures often require the inception of implant biomaterial. Research in this area...
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...
The objective of the presented work is to develop novel porous, near-net shaped foam structures for ...
Almost all currently available implants for bone defect reconstruction in load bearing applications ...
Combination of open celled metal foams with high strength mineral bone cements opens new opportuniti...
Bone replacement of large defects (e.g. due to osteoporotic fractures) is an urgent clinical problem...
The longevity and mechanical properties of biomaterials in the high load-bearing applications of ort...
The generation of titanium foams is a promising strategy for modifying the mechanical properties of ...
The generation of titanium foams is a promising strategy for modifying the mechanical properties of ...
Porous metallic scaffolds have recently gained recognition as a promising avenue toward the regenera...
Until now, it was hardly possible to manufacture real bone-looking synthetic bone replacement materi...
The regeneration of extended bone defects is a serious concern and the number of patients affected ...
Metal implants are a type of hard tissue replacement currently used. Metals used for implants includ...
Pure titanium and some of its alloys are currently considered as the most attractive metallic materi...