The use of a directed laser bealn source to selectively sinter multiple layers of binderless metal powder for the purposes of rapid prototyping is described. The work in this paper is restricted to -325 mesh iron powder, which was sintered using a C\V 50 W Nd:YAG laser to approximately 3.5% density. A subsequent post-treatlnent was perfornled to achieve a fully dense saulple. It is envisioned that such a system can be used to manufacture functional metallic prototypes directly from CAD without part-specific tooling.Mechanical Engineerin
With accelerating growth and competition in today's global marketplace, manufacturers face the daun...
The advantages of powder metallurgy lie within the large degree of freedom for material design and ...
Direct laser sintering of metal powders is a great challenge for Rapid Prototyping (RP) because of ...
The use of a directed laser bealn source to selectively sinter multiple layers of binderless metal ...
Due to the limited mechanical characteristics of the materials which can currently be processed usi...
Manufacturing functional prototypes and tools using conventional methods usually is a time consuming...
Due to the limited mechanical characteristics of the materials which can currently be processed usin...
For more than one decade layer manufacturing technologies assist the development of new products. D...
Unconventional methods of modern materials preparation include additive technologies which involve t...
In order to ensure that the prototype corresponds as closely as possible to the serial part subseque...
Complex three dimensional parts can be manufactured directly from CAD data using rapid prototyping p...
A 550W neodymium-doped yttrium aluminium garnet (Nd:YAG) pulsed laser was used in the solid freeform...
AbstractThe paper focuses on an analysis of materials produced by modern classic additive method dir...
Complex three dimensional parts can be manufactured directly from CAD data using rapid prototyping ...
Currently, several techniques are being used for rapid prototyping of metal parts for various fields...
With accelerating growth and competition in today's global marketplace, manufacturers face the daun...
The advantages of powder metallurgy lie within the large degree of freedom for material design and ...
Direct laser sintering of metal powders is a great challenge for Rapid Prototyping (RP) because of ...
The use of a directed laser bealn source to selectively sinter multiple layers of binderless metal ...
Due to the limited mechanical characteristics of the materials which can currently be processed usi...
Manufacturing functional prototypes and tools using conventional methods usually is a time consuming...
Due to the limited mechanical characteristics of the materials which can currently be processed usin...
For more than one decade layer manufacturing technologies assist the development of new products. D...
Unconventional methods of modern materials preparation include additive technologies which involve t...
In order to ensure that the prototype corresponds as closely as possible to the serial part subseque...
Complex three dimensional parts can be manufactured directly from CAD data using rapid prototyping p...
A 550W neodymium-doped yttrium aluminium garnet (Nd:YAG) pulsed laser was used in the solid freeform...
AbstractThe paper focuses on an analysis of materials produced by modern classic additive method dir...
Complex three dimensional parts can be manufactured directly from CAD data using rapid prototyping ...
Currently, several techniques are being used for rapid prototyping of metal parts for various fields...
With accelerating growth and competition in today's global marketplace, manufacturers face the daun...
The advantages of powder metallurgy lie within the large degree of freedom for material design and ...
Direct laser sintering of metal powders is a great challenge for Rapid Prototyping (RP) because of ...