3D Selective Laser Sintering

Additive manufacturing, commonly known as 3D printing, encompasses various innovative industrial technologies, particularly in the realm of metal production. Metal 3D printers utilize either powder nozzle or powder bed techniques to create intricate and robust components. This comprehensive process enables the fabrication of objects with complex geometries and superior mechanical properties comparable to those made through traditional manufacturing methods. The advantages of additive manufacturing include the integration of multiple functions into a single component and the creation of lightweight structures, delivering significant value to customers. With a robust system design and powerful laser technology, metal 3D printing stands at the forefront of modern manufacturing, offering unparalleled design freedom and efficiency in producing high-strength materials.Setting a new standard in 3D printing, the 3Dsoftware streamlines the process from preparing and optimizing CAD data to managing additive manufacturing on plastic 3D printers. This innovative platform empowers users to create superior parts without the burden of high-priced software solutions. Utilizing selective laser sintering (SLS), a potent laser method, powdered materials are fused layer by layer, allowing for large build sizes and compatibility with robust materials. This makes SLS particularly suitable for producing functional prototypes and complex end-use parts. Its durability and resistance to heat and chemicals make SLS an ideal choice for low- to mid-volume production across various industries, including the creation of essential components, enclosures, and ducting. Embrace the future of manufacturing with 3D and unlock endless possibilities in your projects.

The term "additive manufacturing" is used to describe a wide range of industrial manufacturing technologies. metal 3D printers use either a powder nozzle or powder bed technology. comprehensive process allows objects to be produced using metal 3D printing featuring complex properties, demanding geometries and high strength, which are on a par with those produced using conventional manufacturing in terms of their mechanical properties. Additive manufacturing creates genuine added value for customers, in particular through functional integration and lightweight structures.

Robust system design and powerful 400-watt fiber laser deliver reliable high performance, day in and day out.

Reproducible Part Quality

The exceptionally high beam quality of the laser spot and the excellent detail resolution are ideal for producing highly complex components with homogeneous properties.

Broad Portfolio of Materials

With the most extensive range of validated materials and processes available on the market, all customer needs are covered.

Comprehensive Quality Management

The comprehensive monitoring suite enables quality assurance of all production- and quality-relevant data in real time

Technical Data

Build Volume 250 x 250 x 325 mm (9.8 x 9.8 x 12.8 in)

Laser Type Yb-fiber laser; 1 x 400 W

Presicion Optics 1 F-theta-lens(es); 1 High-speed scanner(s)

Scan Speed up to 7.0 m/s (23.0 ft/s)

Focus Diameter approx. 100 µm (0.00394 in)

Power Supply 1 x 32 A

Power Consumption max. 8.5 kW / typical 2.4 kW

Compressed Air Supply 7 Bar; 20 m³/h (102 psi; 706 ft³/h)

Machine Dimensions 2500 x 1300 x 2190 mm (98.4 x 51.2 x 86.2 in)

Recommended Installation Space min. 4800 x 3600 x 2900 mm (189.0 x 141.7 x 114.2 in)..

3D SLS Metal (Medium)

Selective Laser Sintering (SLS) A high-powered laser selectively fuses powdered material, layer-by-layer. SLS machines are available in large build sizes and compatible with robust materials to enable durable, high-heat and chemically resistant applications. SLS is perfect for functional prototypes, complex end-use parts, and low- to mid-volume production of components, enclosures, and ducting across industries.High precision building of 3D parts with a focus diameter of only 35 µmExceptional Quality at High Volume

Ideal for serial manufacturing of large metal parts, the delivers repeatable excellence.

Highly Productive

1000-watt laser power increases productivity with higher build rates and thicker layers. Ideal for serial manufacturing of large metal parts.

Easy to Use

Coating both sides with powder material reduces production downtime. A circulating air filtering system with automatic cleaning means fewer filter changes and longer service life.

Broad Portfolio of Materials

A comprehensive collection of materials is available, from light metals to stainless steel, tool steels and super alloys.

• Application-specific fibre laser sources from 1000 W

•Optimised shield gas volume flow for highest component quality with minimum Argon consumption

Technical Specification

Fuild Volume 400 x 400 x 400 mm (15.7 x 15.7 x 15.7 in)

Laser Type Yb-fiber laser; 1 x 1000 W

Presicion Optics 1 F-theta-lens(es); 1 High-speed scanner(s)

Scan Speed up to 7.0 m/s (23.0 ft/s)

Focus Diameter approx. 90 µm (0.00354 in)

Power Supply 1 x 50 A

Power Consumption max. 50.2 kW / typical 16.2 kW

Compressed Air Supply 7 Bar; 20 m³/h (102 psi; 706 ft³/h)

Machine Dimensions 4181 x 1613 x 2355 mm (164.6 x 63.5 x 92.7 in)

Recommended Installation Space min. 6500 x 6000 x 3300 mm (255.9 x 236.2 x 129.9 in)

•Open system: Individual adjustment of all machine settings and process parameters as well as unrestricted selection of the material supplier

Highly complex components with function integration

•Internal conformal cooling channels

•Weight optimisation due to lattice and honeycomb structures as well as topology-optimised components

3D SLS Metal (Large)

POLYMER 3D PRINTING

While industrial 3D printing promises more flexibility and creative freedom than traditional manufacturing, understanding different materials and technologies can be a challenge. Here’s your easy path into the limitless world of polymer 3D printing. Driving the future of polymer 3D printing will always matter more than resting on the laurels of our past. The unique balance of established and reliable technologies like selective laser sintering (SLS) and our experts' restless urge to innovate is what allows to offer effectively integrated polymer industrial 3D printing solutions. polymer 3D printers, materials, and services support flexible, cost-efficient production of end-use polymer parts at any scope — from rapid prototyping to industrial-scale manufacturing.

Build Volume

340 x 340 x 600 mm (13.4 x 13.4 x 23.6 in)

Laser Type

CO; 1 x 70 W

Scan Speed

up to 6.0 m/s (19.7 ft/s)

Focus Diameter

approx. 480 µm (0.01890 in)

Power Supply

1 x 32 A

Power Consumption

max. 10.0 kW / typical 2.1 kW

3D SLS Polymer (Medium)

POLYMER 3D PRINTING

While industrial 3D printing promises more flexibility and creative freedom than traditional manufacturing, understanding different materials and technologies can be a challenge. Here’s your easy path into the limitless world of polymer 3D printing. Driving the future of polymer 3D printing will always matter more than resting on the laurels of our past. The unique balance of established and reliable technologies like selective laser sintering (SLS) and our experts' restless urge to innovate is what allows to offer effectively integrated polymer industrial 3D printing solutions. polymer 3D printers, materials, and services support flexible, cost-efficient production of end-use polymer parts at any scope — from rapid prototyping to industrial-scale manufacturing.High Productivity with a Build Volume of over 150 Liters

Two powerful lasers achieve a build rate , delivering exceptional productivity and cost-per-part benefits for industrial high-throughput manufacturing.

extremely high materials expertise and a comprehensive portfolio of highly developed polymer materials for additive manufacturing. Our materials, systems and process parameters fit together optimally. With the right materials, you can realize the target property profiles in the best possible way for your products. Explore below which polymer materials and processes are compatible

Flexibility

With the currently available selection of 9 material and layer thickness combinations, EOS is the leader in material diversity. The EOS ParameterEditor can be used to define custom exposure parameters based on proven starting values.

Part Quality

The established EOSAME feature homogenizes the energy input, ensuring excellent part mechanics and dimensional accuracy throughout the entire build volume. There are no visible edges in the overlapping zone of the lasers.

Cost Reduction

The optimized temperature management, improved layering speed and powerful lasers significantly reduce the build time and hence the part costs.

Technical Data

Build Volume

700 x 380 x 580 mm (27.6 x 15.0 x 22.8 in)

Laser Type

CO₂; 2 x 70 W

Presicion Optics

2 F-theta-lens(es); 2 High-speed scanner(s)

Scan Speed

up to 10.0 m/s (32.8 ft/s)

Power Supply

1 x 32 A

3D SLS Polymer (Large)