Prototyping
Ultrasonic Additive Manufacturing (UAM) Cooperates with Other Processes
Fabrisonic showcases UAM paired with conventional and other additive processes in Booth 433017.
Read MoreSoftware for AM Machines Increases OEE, Repeatability
AddUp Inc.’s booth focuses on monitoring solutions for its laser powder bed fusion and directed energy deposition machines with the goal of increasing adoption by consistently producing accurate parts.
Read MoreSee Digital Manufacturing Data in Real-Time
Formalloy showcases a tool for collecting and visualizing data from real builds using powder-based directed energy deposition (DED), a metal 3D printing process.
Read MoreNexa3D Shows Autonomous Automation for Additive Manufacturing
High-throughput selective laser sintering features automated changes of the complete build unit.
Read MoreJEOL Brings Electron Beam Melting and a Taste of Japan
The supplier of electron beam technology is entering the additive market with its first 3D printer.
Read MoreAn Additive Solution for Copper Inductors and Heat Exchangers
Solution delivering more capable inductors debuts as standard product for other fine-detail copper needs.
Read MoreHow Hybrid Tooling — Part 3D Printed, Part Metal Shell — Accelerates Product Development and Sustainability for PepsiCo
The consumer products giant used to wait weeks and spend thousands on each iteration of a prototype blow mold. Now, new blow molds are available in days and cost just a few hundred dollars.
Read MoreKAM Installs More EOS 3D Printers at Manufacturing Facility
KAM’s additive manufacturing capability now includes a comprehensive fleet of 20 large and midsize additive machines alongside 12 multi-axis CNC machine tools for an integrated advanced manufacturing supply chain.
Read MoreNikon Launches Friendly Takeover for SLM Solutions
The SLM management and supervisory boards welcome and fully support the transaction and takeover offer.
Read MoreMSU, AddiTec Collaborate to Develop Biocompatible Bone Implants
The collaboration focuses on enhancing Ti-6Al-4V implant properties by incorporating alloying elements such as Tricalcium phosphate to the Ti-6Al-4V melt pool matrix — which cannot be done conventionally.
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