Using the Essentium High-Speed Extrusion (HSE™) 3D Printing Platform and Essentium PCTG, the 101st Air Refueling Wing (ARW), Maine Air National Guard printed flight control repair training aids to help maintain proficiency for traditional guardsmen.
December 15, 2022 | The Essentium Team
Using the Essentium High Speed Extrusion (HSE™) 3D Printing Platform and Essentium PA-CF and PLA, Worlds Protect was able to print end-use parts.
May 5, 2022 | The Essentium Team
Using the Essentium technology, Additive at Scale designed and manufactured 100 pilot units for an asset tracking solution for a multinational chemical company in just 60 days.
April 30, 2022 | The Essentium Team
September 13, 2021 | The Essentium Team
July 22, 2021 | The Essentium Team
Learn how Mercury Systems cut costs by 95% using Essentium solutions in this detailed case study.
April 5, 2021 | The Essentium Team
Learn how Essentium’s industrial-grade ESD-safe materials helped TTM get their customer’s time-to-market this detailed case study.
March 8, 2021 | The Essentium Team
Advanced manufacturing facility uses Essentium’s industrial-grade materials and 3D printing platform to support its hybrid manufacturing approach.
December 16, 2020 | The Essentium Team
Trends in 3D Printing at Scale, summarizes the results of a third party industry report that surveyed 170 managers and executives working at manufacturing companies with responsibility for 3D printing. Download the white paper for a close look at these key findings.
Carbon fiber-reinforced composites formulated for additive manufacturing provide exceptional strength, durability, thermal stability, and stiffness. For these reasons, carbon fiber is used in an increasing number of industrial applications in the aerospace, automotive, electronic manufacturing, medical devices, and battery industries, as well as countless others.
Additive manufacturing (AM) is among the key technologies identified as critical to future defense efforts. However, for the defense industry to realize the full potential of AM technology, there must be greater emphasis on near-term AM exposure and education across all functional areas within the military on a much larger scale than is currently in place.
Trends in 3D Printing at Scale, summarizes the results of a third party industry report that surveyed 161 managers and executives working at manufacturing companies with responsibility for 3D printing. Download the white paper for a close look at these key findings.
In this white paper you will learn, why manufacturers take every precaution to avoid Electrostatic discharge (ESD) events including using additive manufacturing (AM) to quickly and affordably produce many of the ESD-safe tools needed on the factory floor.
In this white paper, we highlight Essentium’s response to the PPE shortage and illustrate how using Essentium technology for direct manufacturing can move the cost curve.
In our guide, you will learn: tips for proper material selection, best practices for 3D printed jig and fixture design, and advantages of the Essentium HSE 3D Printing Platform.
This white paper summarizes the results of 3rd party industry report that surveyed executives and managers working at manufacturing companies responsible for decisions regarding 3D printing for production parts.
Operate at the Speed of Relevant to Maintain Flight Readiness
Today’s industrial 3D printer operators demand that their additive manufacturing equipment have the same freedom and flexibility as their injection molding and CNC machining equipment. With that freedom, however, comes the many challenges of proper material handling.
This white paper summarizes the results of an independent survey of 162 executives and managers directly responsible for 3D printing on the viability of additive manufacturing technology for large-scale production.
Essentium Z-PCTG has been developed to solve real challenges present in the manufacturing world, particularly the Electronics Manufacturing Services (EMS) industry.
The structure of molecular chains on the nanoscale and microscale has profound effects on the properties of a polymer.