SLS 3D PRINTERS (5 products)

Technology

Price

0.00 € - 22,000.00 €

Printer Features

Maximum print volume

0 liters - 10 liters

Print properties

Maximum print speed

3 mm/h - 35 mm/h

XY positioning resolution

30 μm - 50 μm

Z positioning resolution

30 μm - 80 μm

Software and connectivity

Powder (SLS)

SLS 3D printing is the most advanced technology at an industrial and professional level thanks to its high quality, reliability and precision, designed for intensive use.

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What is SLS?

Selective Laser Sintering (SLS) 3D printing stands as a cornerstone in additive manufacturing, catering to a broad spectrum of applications across private, professional, and industrial sectors. This technology employs a laser to selectively fuse powdered materials, typically nylon or other thermoplastics, layer by layer, to create intricate three-dimensional objects. Renowned for its ability to produce complex geometries with high accuracy and strength, SLS finds extensive utility in various industries, from aerospace and automotive to healthcare and consumer goods.

Materials

In the realm of SLS 3D printing, a diverse range of powdered materials is available, each offering unique properties suited to different applications. Nylon-based materials, such as PA12 (Polyamide 12), PA11 (Polyamide 11), and PA6 (Polyamide 6), dominate the landscape due to their excellent mechanical properties, durability, and chemical resistance. These materials are favored for producing functional prototypes, end-use parts, and tooling components with exceptional strength and reliability. Additionally, specialized powders, including glass-filled, carbon-filled, and flame-retardant variants, further expand the capabilities of SLS technology, enabling the fabrication of components tailored to specific performance requirements.

Considerations

When considering an SLS 3D printer, various factors come into play to ensure optimal outcomes. The intended application, user expertise, and desired material properties influence the choice of printer and powder materials. Additionally, build volume, resolution, and post-processing requirements play pivotal roles in determining the suitability of an SLS system for specific projects. Despite its relatively higher cost compared to other 3D printing technologies, SLS continues to gain traction due to its ability to produce complex, high-quality parts with minimal support structures and excellent mechanical properties. As SLS technology evolves and becomes more accessible, it promises to revolutionize manufacturing processes and unlock new possibilities for innovation across diverse industries.