Additive manufacturing is a technology of great interest for biomedical engineering and medicine since it enables to mimic natural structures. The 3D printouts require post-processing to ensure desired surface properties and interaction with living matter. The presented research focuses on novel approaches involving plasma treatment of Ti6Al4V scaffolds obtained by Direct Metal Printing. Solid samples and scaffolds of two various geometries were treated in atmospheres of pure argon, argon and oxygen or pure oxygen. The effect of post-processing was evaluated with scanning electron microscopy, measurements of mass, and surface roughness. In all the examined cases the proposed post-processing method reduces the amount of loosely bonded powder...
Additive manufacturing, also known as 3D-printing, is a near-net shape manufacturing approach, deliv...
OBJECTIVE: This research was designed to investigate the effects of low pressure radio-frequency (RF...
AbstractInkjet 3D printing as a versatile rapid manufacturing method was utilized for making titaniu...
During the past decade the amount of titanium parts produced has grown very fast. This is not at las...
The recent breakthroughs of Additive Manufacturing (AM) have shed light on the ever more versatile t...
For the production of complex shaped titanium parts huge advances have been made by powder metallurg...
The surfaces of 3D printed titanium prostheses have major impacts on the clinical performance of the...
Nowadays, post-surgical or post-accidental bone loss can be substituted by custom-made scaffolds fab...
The main materials for 3D printing of titanium are fine metal alloy powders from which produce final...
Additive manufacturing techniques enable users to produce complex devices that would not be possible...
Among additive manufacturing (AM) techniques, laser or electron beam based processes have been widel...
Ti6Al4V components, for biomedical and aerospace sectors, are receiving a great interest especially ...
The main theme of the present thesis is controlled preparation and characterization of oxidized tita...
Within this work, the 3D plasma metal deposition (3DPMD) process is introduced as an additive manufa...
Additive manufacturing, also known as 3D-printing, is a near-net shape manufacturing approach, deliv...
Additive manufacturing, also known as 3D-printing, is a near-net shape manufacturing approach, deliv...
OBJECTIVE: This research was designed to investigate the effects of low pressure radio-frequency (RF...
AbstractInkjet 3D printing as a versatile rapid manufacturing method was utilized for making titaniu...
During the past decade the amount of titanium parts produced has grown very fast. This is not at las...
The recent breakthroughs of Additive Manufacturing (AM) have shed light on the ever more versatile t...
For the production of complex shaped titanium parts huge advances have been made by powder metallurg...
The surfaces of 3D printed titanium prostheses have major impacts on the clinical performance of the...
Nowadays, post-surgical or post-accidental bone loss can be substituted by custom-made scaffolds fab...
The main materials for 3D printing of titanium are fine metal alloy powders from which produce final...
Additive manufacturing techniques enable users to produce complex devices that would not be possible...
Among additive manufacturing (AM) techniques, laser or electron beam based processes have been widel...
Ti6Al4V components, for biomedical and aerospace sectors, are receiving a great interest especially ...
The main theme of the present thesis is controlled preparation and characterization of oxidized tita...
Within this work, the 3D plasma metal deposition (3DPMD) process is introduced as an additive manufa...
Additive manufacturing, also known as 3D-printing, is a near-net shape manufacturing approach, deliv...
Additive manufacturing, also known as 3D-printing, is a near-net shape manufacturing approach, deliv...
OBJECTIVE: This research was designed to investigate the effects of low pressure radio-frequency (RF...
AbstractInkjet 3D printing as a versatile rapid manufacturing method was utilized for making titaniu...
_01.jpg%3Fwidth%3D300&w=3840&q=75)
Add to ORKG