Like in all modern layer based manufacturing processes also in the SLS process the part is directly build up based upon digital computer data. Of special interest for a lot of applications is its high potential for the direct manufacturing of functional parts with good mechanical properties.

Selective laser sintering is a powder-based 3D printing technology that uses a laser to fuse material layers into a final part. The build platform continues to lower until every layer is built and the part is complete. Gradually it was expanded to include metals and alloys to manufacture functional prototypes and develop rapid tooling. können die Richtlinien auch etwas abweichen.

SLS production parts are strong, water and air-tight, heat resistant and repeatable. Bitte achten Sie beim Konstruieren Ihrerer CAD Daten auf folgende Empfehlungen, um den additiven Fertigungsprozess optimieren zu können. Precision printing . Selective Laser Sintering. Selective Laser Sintering (SLS), also just known as Laser Sintering (LS), creates tough and geometrically complex components for batch or serial manufacturing in a wide variety of applications. Je nach Geometrie, Design, etc. Deckard and Beaman were involved in the resulting start up company … After the laser traces a cross-section of the CAD design(s) onto a material layer, the build platform lowers and another layer is fused on top.

Selective laser sintering is one of these additive processes [4]. Für Sie haben wir eine kurze Design Richtlinie beim Einsatz von Selective Laser Sintering zusammengestellt. SLS printing, also referred to as powder bed fusion, is considered the “workhorse” technology of 3D print providers, due to large build volumes and a range of engineering thermoplastics – making it the perfect choice for series manufacture and complex free-form shapes for end-use applications.
This article presents an overview of selective laser sintering (SLS) work as reported in various journals and proceedings. Design Richtlinien.
Selective laser sintering (SLS) is a technology similar to 3DP, with the difference being that a high-intensity laser (usually a CO 2 laser) is used to selectively fuse the polymer powder. Selective laser sintering (SLS) was developed and patented by Dr. Carl Deckard and academic adviser, Dr. Joe Beaman at the University of Texas at Austin in the mid-1980s, under sponsorship of DARPA.

Selective laser sintering was first done mainly on polymers and nylon to create prototypes for audio-visual help and fit-to-form tests. Maximales Bauvolumen beträgt 380 x 330 x 450 … Prototypes to Production Parts with SLS .