The significantly growing use of Additive Manufacturing (AM) enables the fabrication of innovative parts, characterized by lightness and good mechanical properties. The biomedical field takes great advantage of these capabilities: in particular, the ability of producing porous or lattice structure-based parts allows to obtain prostheses with human bone like stiffness, with a positive influence in patient’s lifestyle. The knowledge of the mechanical behavior of materials used in AM and producible geometries is an essential requirement to profit and improve this characteristic: in particular, recent studies focus on the correlation between strength parameters and relative porosity of the part. In a previous work a set of tensile tests ...
Additive Manufacturing (AM), as the name implies, produces three-dimensional objects by progressivel...
cited By 35International audienceThe microstructure and properties of plastic parts made by laser si...
Material development has come to a point where the advancement of metals has hit a plateau while tha...
The significantly growing use of Additive Manufacturing (AM) enables the fabrication of innovative p...
The primary contributors to poor mechanical properties in polyamide materials used during Selective ...
A current challenge in bone tissue engineering is to create scaffolds with suitable mechanical prope...
Selective Laser Sintering, and in general Additive Manufacturing Processes are becoming mature tech...
This paper presents a study on the tensile properties of Alumide and polyamide PA2200 standard sampl...
textLaser Sintering, a method of additive manufacturing, is used in the production of concept models...
This research article published by Scientific.Net, 2009Selective laser sintering (SLS) is a rapid pr...
The availability of additive manufacturing technologies in particular the selective laser sintering ...
Additive Manufacturing technologies are known to allow the production of parts with an extreme degr...
Additive manufacturing offers a manufacturing technique to produce complex geometry prototypes at a ...
Purpose – Hydroxyapatite-polymer composite materials are being researched for the development of low...
This study is focused on multiscale characterization and constitutive parameters identification of s...
Additive Manufacturing (AM), as the name implies, produces three-dimensional objects by progressivel...
cited By 35International audienceThe microstructure and properties of plastic parts made by laser si...
Material development has come to a point where the advancement of metals has hit a plateau while tha...
The significantly growing use of Additive Manufacturing (AM) enables the fabrication of innovative p...
The primary contributors to poor mechanical properties in polyamide materials used during Selective ...
A current challenge in bone tissue engineering is to create scaffolds with suitable mechanical prope...
Selective Laser Sintering, and in general Additive Manufacturing Processes are becoming mature tech...
This paper presents a study on the tensile properties of Alumide and polyamide PA2200 standard sampl...
textLaser Sintering, a method of additive manufacturing, is used in the production of concept models...
This research article published by Scientific.Net, 2009Selective laser sintering (SLS) is a rapid pr...
The availability of additive manufacturing technologies in particular the selective laser sintering ...
Additive Manufacturing technologies are known to allow the production of parts with an extreme degr...
Additive manufacturing offers a manufacturing technique to produce complex geometry prototypes at a ...
Purpose – Hydroxyapatite-polymer composite materials are being researched for the development of low...
This study is focused on multiscale characterization and constitutive parameters identification of s...
Additive Manufacturing (AM), as the name implies, produces three-dimensional objects by progressivel...
cited By 35International audienceThe microstructure and properties of plastic parts made by laser si...
Material development has come to a point where the advancement of metals has hit a plateau while tha...