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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
The collaboration focus is to combine HP’s Metal Jet S100 technology with unique material offerings to take tooling to the next level while addressing unique customer challenges.
With an open system providing full laser control, Farsoon’s technology offers the freedom to work with any material and control all printing parameters.
In a recent case study, Alpine Advanced Materials partnered with Nexa3D to produce 3D printed tooling for injection molded composites. Utilizing Nexa3D’s XiP desktop 3D printer and its Freeform Injection Molding process, Alpine was able to reduce prototype tooling production time and cost alike for its customers.
The project focuses on advancing the ability to print a thermoset composite material that can transform the way an aircraft structure is designed, fabricated and sustained for limited-life aircraft.
This collaboration gives customers a highly efficient process that eliminates production waste, minimizes energy consumption and enables flexible, localized, on-demand production with a smaller environmental footprint.
3D Systems’ latest high-performance materials can enable efficient production of end-use parts in industries such as automotive, aerospace, semiconductor and consumer goods.
Rapid Robotics helps manufacturers get up and running with automation quickly, by providing robots that arrive pretrained and already equipped with tooling which is often 3D printed.
Evonik’s Infinam eCO PA12 is a PA12 powder material for industrial 3D printing that substitutes 100% of fossil feedstock with biocircular raw material from waste cooking oil in a mass balancing process.
The new company’s focus will be on materials development targeting industrial applications, as well as the industrialization of the product ecosystem, with the first beta systems to be installed in 2024.
Reaching the next stage of additive technology’s development depends on the evolution of the current market.