Add to ORKGThe processing of titanium porous coatings using powder metallurgy technique to achieve a porous structure that allows osseointegration with bone tissue was discussed. The porous microstructure exhibited micropores and interconnected macropores with size ranges that allowed bone ingrowth. The macropores in the coatings were originated from the binder evaporation while the micropore was related with the porous titanium powder and the low compaction pressure used. The in vivo evaluation indicated that osseointegration had occurred between the bone and porous material
Titanium and its alloys are reference materials in biomedical applications because of their desirabl...
Commercial pure titanium is known as good substitute for cortical bone tissue. Nevertheless, stress ...
Current orthopaedic implant technology focuses on fixation by osseointegration to maximise the impla...
A successful clinical performance of dental and orthopaedic implants strongly depends on the fixatio...
Powder metallurgy techniques have been used to produce controlled porous structures, such as the por...
A porous implant material with adequate pore structure and the appropriate mechanical properties for...
Porous titanium scaffolds are promising materials for biomedical applications such as prosthetic anc...
Intervertebral implants should be designed with low load requirements, high friction coefficient and...
A major challenge in implant technology nowadays is preventing premature loosening of the implants s...
Background: It may be an important prospective clinical use of manufacturing of porous implant for c...
This paper deals with powder processing of Ti6Al4V titanium alloy based materials with tailored poro...
This paper deals with powder processing of Ti6Al4V titanium alloy based materials with tailored poro...
The results of studies of the effect of particle size, pore size, shape, metallic-ray powder osteoin...
The current orthopaedic implant technology focuses on an optimized fixation by osseointegration to m...
The osseointegration of porous titanium implants was evaluated in the present work. Implants were fa...
Titanium and its alloys are reference materials in biomedical applications because of their desirabl...
Commercial pure titanium is known as good substitute for cortical bone tissue. Nevertheless, stress ...
Current orthopaedic implant technology focuses on fixation by osseointegration to maximise the impla...
A successful clinical performance of dental and orthopaedic implants strongly depends on the fixatio...
Powder metallurgy techniques have been used to produce controlled porous structures, such as the por...
A porous implant material with adequate pore structure and the appropriate mechanical properties for...
Porous titanium scaffolds are promising materials for biomedical applications such as prosthetic anc...
Intervertebral implants should be designed with low load requirements, high friction coefficient and...
A major challenge in implant technology nowadays is preventing premature loosening of the implants s...
Background: It may be an important prospective clinical use of manufacturing of porous implant for c...
This paper deals with powder processing of Ti6Al4V titanium alloy based materials with tailored poro...
This paper deals with powder processing of Ti6Al4V titanium alloy based materials with tailored poro...
The results of studies of the effect of particle size, pore size, shape, metallic-ray powder osteoin...
The current orthopaedic implant technology focuses on an optimized fixation by osseointegration to m...
The osseointegration of porous titanium implants was evaluated in the present work. Implants were fa...
Titanium and its alloys are reference materials in biomedical applications because of their desirabl...
Commercial pure titanium is known as good substitute for cortical bone tissue. Nevertheless, stress ...
Current orthopaedic implant technology focuses on fixation by osseointegration to maximise the impla...