Additive Manufacturing Systems
The process of joining materials to make parts from 3D model data, usually layer upon layer, using digital manufacturing technologies that include powder bed fusion, binder jetting (3D printing), material jetting, sheet lamination, material extrusion, directed energy deposition, and VAT polymerization.
How to Minimize Post-Processing Headaches for 3D-Printed Parts

Although 3D metal printing is becoming more popular, finishing remains a challenging and arduous task. Understanding how post-processing works and how to measure results will help you optimize this crucial step.
Although 3D metal printing is becoming more popular, finishing remains a challenging and arduous task. Understanding how post-processing works and how to measure results will help you optimize this crucial step.
Surface finishing and other post-processing requirements for AM production applications can run up to 60 percent of the total cost per finished part. Here’s how more capable and connected systems can simplify the overall process chain, provide economically viable parts and improve operational sustainability, cost, and timeliness.
Additive manufacturing is moving beyond prototypes, part repair and producing non-critical parts, and entering the direct production of critical parts and lot sizes. To deliver these jobs quicker, digital networks are integrating AM with product design software, CAD/CAM, ERP and automation to develop new approaches that can build innovative products faster than ever.
Additive manufacturing is moving beyond prototypes, part repair and producing non-critical parts, and entering the direct production of critical parts and lot sizes. To deliver these jobs quicker, digital networks are integrating AM with product design software, CAD/CAM, ERP and automation to develop new approaches that can build innovative products faster than ever.
Until this micro-AM technology was introduced, the requirements for ultra-precision, repeatable resolution and surface finish from the micro-manufacturing sector were impossible to achieve through the use of 3D printing.
When coupled with an MPiec controller, machine tool builders and experienced CNC programmers can use Yaskawa Compass graphical user software to design HMI hybrid machines as well as 3D printing, shape cutting, and robotics.
Unlike electron beam and laser powder bed fusion (PBF), Wayland Additive’s Calibur 3 uses NeuBeam technology, which focuses heat on the part instead of the process bed. As a result, the machine is able to process refractory metals and highly reflective alloys.
Featuring a build volume of 600 mm x 550 mm, VELO3D’s extra-capacity Sapphire XC uses Flow print-preparation software and Assure quality assurance software to manufacture high-quality parts without using support structures.