Stereolithography or SLA can be used for creating models, prototypes, patterns, and production parts in a layer by layer fashion by focusing an ultraviolet (UV) laser on to a vat of photopolymer resin. At a very low price, SLA can produce prototypes that can be used by the businesses to assess the design, performance, functionality of their product. SLA has been used in medical modelling for a long time. Engineers, designers, manufacturers, and more choose SLA for its fine features, smooth surface finish, ultimate part precision, and accuracy, and mechanical attributes like isotropy, water tightness, and material versatility.

Selective laser sintering or SLS can create 3D prints by a laser selectively sinters the particles of polymer powder, fusing them together and building a part layer-by-layer. The material used in SLS is in powder form and include, but are not limited to, polymers such as polyamides (PA), polystyrenes (PS), thermoplastic elastomers (TPE), and polyaryletherketones (PAEK). SLS is now been used for prototyping and for small productions as well. It produces products with high accuracy along with consistent mechanical properties.

Direct Metal Lasering Sintering or DMLS is used to directly create a metal part from the 3D computer model. It can create accurate complex geometries that are not possible to be created from other metal manufacturing processes. DMLS is an ideal process for complex oil and gas components, custom medical guides, part-consolidated aerospace parts, and tough functional prototypes. The parts created by this technique are strong and dense, which can help in getting to market with faster turnaround time. DMLS can be used with metal alloys or pure metals without affecting the properties of the material. Even mixtures of powders (e.g. aluminum and nylon) can be successfully printed.