EOS P 396 – About 38% less energy consumption and up to 32% faster

EOS P 396 – About 38% less energy consumption and up to 32% faster

System for Additive Manufacturing of serial parts and functional prototypes from polymer materials. The successor to the EOSINT P 395 offers higher productivity and therefore lower costs per building job. Improved hardware and software ensure greater consistency in part properties.

With total build size of 340 x 340 x 600 mm, the EOS P 396 covers the medium build volume range. This modular and highly productive system allows the tool-free manufacture of serial components, spare parts, functional prototypes and models directly from CAD data. Compared to its predecessor model, the EOS P 396 consumes for a typical building job (filling ratio 5.8%)about 38% less energy and is up to 32% faster.

The EOS P 396 processes thermoplastic plastics on an industrial scale. The, to some extent, newly developed software and hardware components make the EOS P 396 on the whole more productive. This cuts both costs per job and component costs.

Reproducible and constant component quality

The new EOSAME feature adjusts the energy input and thus ensures a homogeneous quality and enhanced mechanical properties of the manufactured parts over the entire building volume.

The optimized temperature management Reduces non-productive process times and improves process stability.

The build progress is on average 15% higher compared to the established EOSINT P 395 (depending on the filler loading and part design). This significantly reduces the component costs.

Boosted build rate by more powerful 70 W laser.

Reduced non-productive time by 60 % due to spot pyrometer.

The latest version 3.7 of the PSW software contains some new features alongside proven functions, features that offer the best possible support during both preparation of the build job and process control during the build progress.

The EOS P 396 can process an extensive portfolio of materials, just like its predecessor.

With the corresponding ParameterSets, the system produces parts with standardized part property profiles (PPPs).

340 mm x 340 mm x 600 mm (13.4 x 13.4 x 23,6 in)

Building speed (depending on material)

Layer thickness (depending on material)

min. 10 m³/h; 5,000 hPa (13.1 yd³/h; 72.5 psi)

1,840 mm x 1,175 mm x 2,1 00 mm (72.4 x 46.3 x 82.7 in)

950 mm x 700 mm x 1,550 mm (37.4 x 27.6 x 6 1 in)

1,480 mm x 1,170 mm x 1,470 mm (58.3 x 46.1 x 57.9 in)

1,190 mm x 620 mm x 1,500 mm (46.9 x 24.4 x 59.1 in)

min. 4.3 m x 3.9 m x 3.0 m (169.3 x 153.5 x 118.1 in)

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