Add to ORKGCombination of open celled metal foams with high strength mineral bone cements opens new opportunities for design of bone implants. The tested metal/mineral composites provided not only very high initial compression strengths but furthermore a suitable mechanical stability over a broad range of deformation. Excellent biocompatibility of the investigated composites was prevalently caused by the mineral matrix. Filling with resorbable bone cement completely protected cultured bone cells from detrimental effects of corrosion products of iron metal matrices. Similarly, cytotoxic effects of corroding iron could be completely avoided by coating the iron foams with a brushite layer. The authors conclude that development of metal foam/biocement com...
Last few decades has seen enormous growth in terms of bone replacement materials. Relying on their d...
There are multiple and complex problems in artificial biomaterials used to meet needs such as repair...
This paper work deals with properties of metallic biomaterials in terms of their suitability for use...
Metal foams with high open porosity (80-90%) and adapted strength and stiffness possess a high struc...
Almost all currently available implants for bone defect reconstruction in load bearing applications ...
The longevity and mechanical properties of biomaterials in the high load-bearing applications of ort...
The present work deals with the comparison of the properties of metallic biomaterials in terms of th...
Degeneration of the weight bearing bones of the ageing population often requires the inception of me...
The biomaterial used in medical implantable devices must be able to sufﬕciently integrate within t...
Iron and iron-phosphorus open-cell foams were manufactured by a replica method based on a powder met...
Metal implants are a type of hard tissue replacement currently used. Metals used for implants includ...
Though magnesium has long been determined potentially effective as an orthopedic biomaterial for imp...
Iron-bioceramic composites have been developed as biodegradable implant materials with tailored degr...
Degrading metal alloys have recently gained substantial scientific and clinical interest for their u...
Metallic biomaterials are used in medical devices in humans more than any other family of materials....
Last few decades has seen enormous growth in terms of bone replacement materials. Relying on their d...
There are multiple and complex problems in artificial biomaterials used to meet needs such as repair...
This paper work deals with properties of metallic biomaterials in terms of their suitability for use...
Metal foams with high open porosity (80-90%) and adapted strength and stiffness possess a high struc...
Almost all currently available implants for bone defect reconstruction in load bearing applications ...
The longevity and mechanical properties of biomaterials in the high load-bearing applications of ort...
The present work deals with the comparison of the properties of metallic biomaterials in terms of th...
Degeneration of the weight bearing bones of the ageing population often requires the inception of me...
The biomaterial used in medical implantable devices must be able to sufﬕciently integrate within t...
Iron and iron-phosphorus open-cell foams were manufactured by a replica method based on a powder met...
Metal implants are a type of hard tissue replacement currently used. Metals used for implants includ...
Though magnesium has long been determined potentially effective as an orthopedic biomaterial for imp...
Iron-bioceramic composites have been developed as biodegradable implant materials with tailored degr...
Degrading metal alloys have recently gained substantial scientific and clinical interest for their u...
Metallic biomaterials are used in medical devices in humans more than any other family of materials....
Last few decades has seen enormous growth in terms of bone replacement materials. Relying on their d...
There are multiple and complex problems in artificial biomaterials used to meet needs such as repair...
This paper work deals with properties of metallic biomaterials in terms of their suitability for use...