EOS presents its new PREMIUM and CORE metal materials for additive manufacturing applications

EOS, the world’s leading technology supplier in the field of industrial 3D printing of metals and polymers, expands its range of PREMIUM and CORE metal materials portfolio for additive manufacturing (AM). The company introduces one new PREMIUM and seven new CORE products for the EOS M 290, EOS M 300-4 and EOS M 400-4 systems.

“With more companies crossing the border from prototyping to serial production based on AM, the demand for reliable data for materials and built parts is growing. For this, EOS introduced Technology Readiness Levels (TRLs) in 2019 for materials and processes to classify technological maturity levels for easy customer orientation.”, said Hanna Pirkkalainen, the Product Manager Metal Materials for EOS

She goes on to say: “Depending on specific application requirements, customers can choose between CORE materials (TRL 3 and 5) with a major focus on early market access to new materials, and PREMIUM materials (TRL 7-9) which attach particular importance to repeatable part quality essential in serial production.”

New PREMIUM Material

EOS ToolSteel 1.2709 for EOS M 290 Systems

Validated for EOS M 290 systems, EOS ToolSteel 1.2709 is a TRL 7, ultra-high strength and hardness maraging steel for demanding molding applications. This tool steel has an excellent fatigue strength and improved polishability. Properties are adjustable with different heat treatments after 3D printing. This new material is validated for the EOS M 290 system. Typical applications range from plastic injection molding, to extrusion tools, hot pressing tools to die casting tools for aluminum and zinc alloys.

New CORE Processes

The three new CORE products for AlSi10Mg, Ti64 Grade 5 and 23 with up to 50 percent faster build rates increase the productivity of the EOS M 290 considerably. This leads to costs-per-part that are even more competitive and opens up new applications with profitable business cases. With EOS NickelAlloy IN718 and EOS MaragingSteel MS1, two new CORE materials are also now available for the EOS M 300-4. The materials portfolio of the EOS M 400-4 has also been extended to include two new and faster CORE processes for EOS Titanium Ti64 Grade 5 and EOS Titanium Ti64 Grade 23.

EOS Aluminum AlSi10Mg for EOS M 290 Systems

Developed for the EOS M 290 system, the new 60µm process is classified as CORE material with TRL 3. The material offers high productivity, improved buildability and enables heat treatment to improve ductility. Typical applications are in all industries and the process is specifically targeted for applications where cost-efficiency is the main requirement.

EOS Titanium Ti64 Grade 5 and Grade 23

The new 80µm processes for both titanium alloys and for both the EOS M 290 and EOS M 400-4 systems enable higher build rates, resulting in lower cost-per-part. Both Ti6AI4V alloys offer excellent mechanical properties: low density with high strength and excellent corrosion resistance. The new 80µm processes are optimized for faster production of parts with properties similar to wrought Ti64. Typical applications range from aerospace and automotive components to other industrial applications where a combination of low weight with high strength is required.

EOS NickelAlloy IN718 and EOS MaragingSteel MS1 for EOS M 300-4 Systems

Developed for the EOS M 300-4 system, the 40 µm process comes with a TRL 3 classification. EOS NickelAlloy IN718 is a precipitation-hardening nickel-chromium alloy which is characterized by having good tensile, fatigue, creep and rupture strength at temperatures up to 700 ºC (1,290 ºF). Typical applications range from gas turbine components to instrumentation, power industry and process industry parts.

The 50 µm process based on EOS MaragingSteel MS1 is as well designed for use on the EOS M 300-4 system. The material also comes with a TRL 3 classification. Parts built with this material are characterized by having very good mechanical properties. The parts can be easily post-hardened to more than 50 HRC to obtain excellent hardness and strength. Typical applications range from injection molding tools and inserts to mechanical engineering parts.

EOS Technology Readiness Levels (TRLs)

EOS introduced Technology Readiness Levels (TRLs) in 2019 for materials and processes to classify technological maturity levels for easy customer orientation, easier choice of materials for specific applications, and more predictable results in development and production. With extensive data per material and validated parameters for part properties, EOS is both facilitating and accelerating the transition to AM-based series production.

EOS introduced two categories to classify the materials for usage in serial applications: TRL 3–6 refer to Core materials, whereas TRL 7–9 refer to Premium materials. For example, level 3 refers to concept proof, level 5 refers to design freeze and a verification of the technical solution, while level 7 refers to production capability with extensive statistical data documentation.

For more information, please visit http://www.eos.info.