An overview of highly porous titanium processed via metal injection molding in combination with the space holder method
In the past two decades, titanium foams have attracted greater interest from the biomedical
industry due to their excellent chemical and mechanical biocompatibility when used as …
industry due to their excellent chemical and mechanical biocompatibility when used as …
Design and characterization of Ti6Al4V/20CoCrMo− highly porous Ti6Al4V biomedical bilayer processed by powder metallurgy
The aim of this work was to develop a Ti6Al4V/20CoCrMo− highly porous Ti6Al4V bilayer for
biomedical applications. Conventional powder metallurgy technique, with semi-solid state …
biomedical applications. Conventional powder metallurgy technique, with semi-solid state …
Design of architectured Ti6Al4V-based materials for biomedical applications fabricated via powder metallurgy
This work presents a novel methodology to produce materials with specific properties by
powder metallurgy. The fabricated implant prototype, based on Ti6Al4V powders, is …
powder metallurgy. The fabricated implant prototype, based on Ti6Al4V powders, is …
Design of Ti64/Ta Hybrid Materials by Powder Metallurgy Mimicking Bone Structure
This work reports on the fabrication of a novel two-layer material composed of a porous
tantalum core and a dense Ti6Al4V (Ti64) shell by powder metallurgy. The porous core was …
tantalum core and a dense Ti6Al4V (Ti64) shell by powder metallurgy. The porous core was …
Ti64/20Ag porous composites fabricated by powder metallurgy for biomedical applications
L Olmos, AS Gonzaléz-Pedraza… - Materials, 2022 - mdpi.com
We present a novel Ti64/20Ag highly porous composite fabricated by powder metallurgy for
biomedical applications and provide an insight into its microstructure and mechanical …
biomedical applications and provide an insight into its microstructure and mechanical …
Synthesis and characterisation of Ti6Al4V/xTa alloy processed by solid state sintering
This work investigates the effect of Ta particle addition into a Ti6Al4V alloy processed by
solid state sintering. The volume fraction of Ta ranged between 0 and 30 vol.-%. The …
solid state sintering. The volume fraction of Ta ranged between 0 and 30 vol.-%. The …
Characterization of Ti6Al4V–Ti6Al4V/30Ta bilayer components processed by powder metallurgy for biomedical applications
J Chávez, O Jiménez Alemán… - Metals and Materials …, 2020 - Springer
The design and fabrication of a bilayer Ti6Al4V–Ti6Al4V/30Ta component were performed
by using the powder metallurgy process and solid-state sintering as the consolidation step …
by using the powder metallurgy process and solid-state sintering as the consolidation step …
[HTML][HTML] Investigation of Pore Size on the Hydrogen Evolution Reaction of 316L Stainless Steel Porous Electrodes
This work aims to analyze the effect of pore size on the catalytic reaction of 316L stainless
steel electrodes. Porous compacts were fabricated using the space holder technique and …
steel electrodes. Porous compacts were fabricated using the space holder technique and …
Fabrication and characterization of highly porous Ti6Al4V/xTa composites for orthopedic applications
This paper presents the processing and properties of Ti6Al4V/xTa porous materials for
potential use as bone implants. The processing route includes powder mixing, die pressing …
potential use as bone implants. The processing route includes powder mixing, die pressing …
Processing of Porous-Core Materials for Bone Implant Applications: A Permeability and Mechanical Strength Analysis
This study presents a methodology to fabricate Ti6Al4V cylindrical compacts with a highly
porous core and dense shell with the aim to mimic the bone microstructure. Compacts with …
porous core and dense shell with the aim to mimic the bone microstructure. Compacts with …