A new powder manufacturing process for Ti and Mg metallic foams designs porosity, pore size and morphology. These open-cellular foams (pores: 200–500 μm) have exceptional characteristics (e.g., Ti foam porosity 78%, compressive strength 35 MPa, Young's modulus 5.3 GPa). Anticipated applications include biocompatible implant materials
The development of titanium foams with a low elastic modulus has increased their scientific and tech...
In the past two decades, titanium foams have attracted greater interest from the biomedical industry...
Synthetic scaffolds are a highly promising new approach to replace both autografts and allografts to...
A new powder manufacturing process for Ti and Mg metallic foams designs porosity, pore size and morp...
Pure titanium and some of its alloys are currently considered as the most attractive metallic materi...
A new process has been recently developed to produce biocompatible metallic foams using powder mixtu...
Metals are the oldest of biomedical implant materials and metallic alloys remain the material of cho...
Titanium alloys, due to their biocompatibility and low stiffness, are among the most studied of meta...
The current study was undertaken to investigate the production and surface processing of biomedical ...
Porous Ti-6Al-4V alloys are attractive candidates as implant materials due to their good biocompatib...
We present a novel route for producing a new class of titanium foams for use in biomedical implant a...
Porous titanium (Ti) offers several key attributes as a biomedical material. Among the known charact...
Ti-6Al-4V foams, biomedical candidate materials, were synthesized by powder metallurgical space hold...
Porous Ti-6Al-4V alloys are widely used in the biomedical applications for hard tissue implantation ...
Porous titanium (Ti) offers several key attributes as a biomedical material. Among the known charact...
The development of titanium foams with a low elastic modulus has increased their scientific and tech...
In the past two decades, titanium foams have attracted greater interest from the biomedical industry...
Synthetic scaffolds are a highly promising new approach to replace both autografts and allografts to...
A new powder manufacturing process for Ti and Mg metallic foams designs porosity, pore size and morp...
Pure titanium and some of its alloys are currently considered as the most attractive metallic materi...
A new process has been recently developed to produce biocompatible metallic foams using powder mixtu...
Metals are the oldest of biomedical implant materials and metallic alloys remain the material of cho...
Titanium alloys, due to their biocompatibility and low stiffness, are among the most studied of meta...
The current study was undertaken to investigate the production and surface processing of biomedical ...
Porous Ti-6Al-4V alloys are attractive candidates as implant materials due to their good biocompatib...
We present a novel route for producing a new class of titanium foams for use in biomedical implant a...
Porous titanium (Ti) offers several key attributes as a biomedical material. Among the known charact...
Ti-6Al-4V foams, biomedical candidate materials, were synthesized by powder metallurgical space hold...
Porous Ti-6Al-4V alloys are widely used in the biomedical applications for hard tissue implantation ...
Porous titanium (Ti) offers several key attributes as a biomedical material. Among the known charact...
The development of titanium foams with a low elastic modulus has increased their scientific and tech...
In the past two decades, titanium foams have attracted greater interest from the biomedical industry...
Synthetic scaffolds are a highly promising new approach to replace both autografts and allografts to...
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