Selective Laser Sintering

Stereolithography 3D Printing What Is SLS 3d Printing ?

Selective laser sintering (SLS) is an additive manufacturing (AM) technology that uses a laser to sinter powdered plastic material into a solid structure based on a 3D model. SLS 3D printing has been a popular choice for engineers in product development for decades.

SLS 3D printing uses a high-powered laser to fuse powdered material together into a desired 3D shape. This professional-grade technology is ideal for both functional prototyping and small production runs, as it offers a high degree of design freedom, high accuracy, and exceptional mechanical properties.

Although SLS 3D printing was previously restricted to bulky and expensive machines, recent advancements have led to the development of more affordable and compact SLS machines, binding the material together to create a solid structure. It is similar to selective laser melting; the two are instantiations of the same concept but differ in technical details

What is SLS 3d printing?

Selective laser sintering (SLS) is an additive manufacturing (AM) technology that uses a laser to sinter powdered plastic material into a solid structure based on a 3D model. SLS 3D printing has been a popular choice for engineers in product development for decades.

SLS 3D printing uses a high-powered laser to fuse powdered material together into a desired 3D shape. This professional-grade technology is ideal for both functional prototyping and small production runs, as it offers a high degree of design freedom, high accuracy, and exceptional mechanical properties.

Although SLS 3D printing was previously restricted to bulky and expensive machines, recent advancements have led to the development of more affordable and compact SLS machines, binding the material together to create a solid structure. It is similar to selective laser melting; the two are instantiations of the same concept but differ in technical details

Manufacturing

The creation of concept models used in early stages of product development. FDM models reduce costs and shorten development timelines, FDM Technology makes it possible to get the products to market faster

Functional Prototypes

The creation of functional prototypes for testing purposes. These prototypes allow to test in real world environments and make decisions that have a dramatic effect on the cost to manufacture to the product

Fabrication

Fabrication of end-use parts. Without the expense and lead time of traditional tooling or machining, FDM produces end-use parts tough enough for integration into the final product. Ideal for building small quantities of parts while waiting for tooling

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