Add to ORKGThe Fraunhofer Institute of Production Technology has been successful in using Selective Laser Sintering to build ceramic shells directly from zirconium silicate. Shells for complex metal parts may be built in less than a day, accelerating the process of creating metal prototypes dramatically. No thermoplastic binders are used and there is no need for additional sintering; the shells are readily usable once they have been laser sintered and cleaned of excess powder. Parts that are hard to produce the traditional way have been cast using this new technology, demonstrating the enormous potential in putting down on product development time
Examines the process of selective laser sintering [SLS] for rapid prototyping. Begins with a brief h...
Rapid prototypings using direct selective laser sintering (SLS) ofmetal/ceramic powders have a grea...
Due to the limited mechanical characteristics of the materials which can currently be processed usi...
Rapid prototyping has been used to create master models for investment casting for several years, ac...
Selective Laser Sintering (SLS) of zirconium silicate as a ceramic material used for investment cast...
lt is becoming increasingly important in the field of product development, to minimise both the manu...
The Fraunhofer Institute of Production Technology (IPT) and the Fraunhofer Institute of Laser Techn...
For more than one decade layer manufacturing technologies assist the development of new products. D...
Complex three dimensional parts can be manufactured directly from CAD data using rapid prototyping p...
For more than one decade layer manufacturing technologies assist the development of new products. Du...
Complex three dimensional parts can be manufactured directly from CAD data using rapid prototyping ...
The rapid prototyping market continues to progress in tenns of processes and materials used for the...
Selective Laser Sintering (SLS) offers the advantage of directly manufacturing complex-shaped parts ...
In order to ensure that the prototype corresponds as closely as possible to the serial part subseque...
An additive manufacturing technique for high-strength oxide ceramics is presented. Based on selectiv...
Examines the process of selective laser sintering [SLS] for rapid prototyping. Begins with a brief h...
Rapid prototypings using direct selective laser sintering (SLS) ofmetal/ceramic powders have a grea...
Due to the limited mechanical characteristics of the materials which can currently be processed usi...
Rapid prototyping has been used to create master models for investment casting for several years, ac...
Selective Laser Sintering (SLS) of zirconium silicate as a ceramic material used for investment cast...
lt is becoming increasingly important in the field of product development, to minimise both the manu...
The Fraunhofer Institute of Production Technology (IPT) and the Fraunhofer Institute of Laser Techn...
For more than one decade layer manufacturing technologies assist the development of new products. D...
Complex three dimensional parts can be manufactured directly from CAD data using rapid prototyping p...
For more than one decade layer manufacturing technologies assist the development of new products. Du...
Complex three dimensional parts can be manufactured directly from CAD data using rapid prototyping ...
The rapid prototyping market continues to progress in tenns of processes and materials used for the...
Selective Laser Sintering (SLS) offers the advantage of directly manufacturing complex-shaped parts ...
In order to ensure that the prototype corresponds as closely as possible to the serial part subseque...
An additive manufacturing technique for high-strength oxide ceramics is presented. Based on selectiv...
Examines the process of selective laser sintering [SLS] for rapid prototyping. Begins with a brief h...
Rapid prototypings using direct selective laser sintering (SLS) ofmetal/ceramic powders have a grea...
Due to the limited mechanical characteristics of the materials which can currently be processed usi...