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In machining, a part’s form may change in the process, but its material properties end as they started. In additive, the 3D printing process determines the part's shape as well as its material properties. Variables like processing temperatures, nozzle diameter or laser spot size, gas flow, and more can affect layer adhesion, porosity and density of the final material. The main classes of materials used in 3D printing today are polymers, metals, composites, ceramics and sand
3D printable material will meet ESD, flammability and other requirements to allow for flexible manufacturing of ducts, without tooling needed today.
Continuum Powders, the material production arm of small-scale foundry technology company MolyWorks, has announced new partnerships aimed at further reducing the environmental impact of its metal powder production.
Presentations will cover 3D printing for mold tooling, material innovation, product development, bridge production and full-scale, high-volume additive manufacturing.
The Developer enhancement in Velo3D’s Flow print preparation software gives users the freedom to migrate their own 3D printing parameters, even if developed on other brand machines, to a Velo3D Sapphire system where they can take advantage of machine-to-machine repeatability for series production.
With an open system providing full laser control, Farsoon’s technology offers the freedom to work with any material and control all printing parameters.
The collaboration will increase accessibility of Sandvik’s Osprey metal powders, which includes premium titanium alloys and copper powder, as well as nickel-based superalloys, cobalt-chrome and ultrahard maraging steels.
The DMP Factory 500 solution currently operating at CIMP-3D offers a look at the equipment and steps necessary to 3D print metal parts at large scale.
The metal powder reprocessing system transfers material to 3D printers, recovers the unused material, screens it and then returns the material to the machine or a container for future use.
The award recipients are expected to collaborate with small businesses to bolster applicable knowledge, best practices and data to address the needs of the broader additive manufacturing supply chain.
MPI is working with Additive Manufacturing Solutions and AMFG to create a versatile, commercial predictive material reuse management tool that will enable additive manufacturing to expand by introducing greater cost efficiencies.
