EOSINT P 395
A highly productive thermoplastics laser-sintering system.
The EOSINT P 395 is a highly productive thermoplastics laser-sintering system. It can produce fully functional plastic products for use in product development and manufacturing or for producing spare parts. The system can create parts without the need for support structures. The maximum building height of 620 mm enables the construction of larger plastic components without the need for subsequent joining processes. The modular nature of the EOSINT P 395 offers great flexibility with regard to functionality and budget. The completely re-engineered LaserOpticsModul (SurfaceModule) improves the quality of vertical surfaces into regions which until now had been exclusive to the FORMIGA. The recoating unit in the EOSINT P 395 has also been further improved.
The introduction of PartPropertyProfiles (PPP) has led to the integration into the EOSINT P 395 of EOS’s highly successful Blade Cartridge Concept, which was introduced in 2007 and makes it simple to carry out adjustments and also to change the layer thickness.
Special parameter sets can be implemented according to material, layer thickness or particular benefits to achieve standardized PartPropertyProfiles (PPP). Subsequently, either particularly high cost benefits, for example, or the reproduction of the finest of details can be obtained. If the special parameter sets are not required, then the initial necessary investment decreases accordingly. Parameter sets and other modules can be added at any time.
In order to optimize process flows, the technology also provides IntegratedProcessChainManagement (IPCM). This includes automatic powder conveying, an unpacking station and a powder recycling facility, all of which maintain dust-free as well as ergonomic working conditions. In addition to the exchangeable frame docking system, these features guarantee maximum use of the machine’s capacity. The distinctive features of the EOSINT P 395 system are the quality of the parts it produces, its productivity, high degree of automation, professional materials management, and the ergonomically designed peripherals. These features are what make the system the ideal production tool for the economical batch-size optimized manufacture of parts at all stages of the product life cycle. The system is therefore perfectly suited to an industrial environment.
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