![]() ![]() ![]() ![]() The material also the first high performance material in ALM’s range with a low refresh rate of 40%, contributing to overall costs savings. Carbon fiber content of the material gives components superior isotropic strength, and helps with the crucial advantage of lightweighting desired by manufacturers. The new, powder-based, HT-23 material released at RAPID + TCT is marketed by EOS wholly owned subsidiary Advanced Laser Materials (ALM). Image via EOS.īoeing competitor Airbus has had Stratasys’ PEKK-related ULTEM material installed as a standard in its A350 XWB aircraft since October 2016.Īt Boeing PEKK 3D printing has previously been applied to the development of its CST-100 Starliner spacecraft in collaboration with Oxford Performance Materials (OPM). In addition, “Our EOS P 810 polymer 3D printing platform and the ALM HT-23 material enabled us to help Boeing reach high demands for weight reduction, cost efficiency and reduced assembly time for components.” The EOS P 180 additive manufacturing system. The material can be used to dramatically reduce the tooling costs, by replacing aluminum parts with plastic. “The aerospace industry has to meet challenging requirements when it comes to UV resistance, flame retardancy and meeting Federal Aviation Regulations (FAR),” emphasizes Scott Killian, aerospace business development manager at EOS North America. It is suitable for use on a new EOS P 810 system that was also announced today at RAPID + TCT 2018. The high temperature HT-23 material has been developed in collaboration with leading aerospace company Boeing. ULTEM™ resin is created by SABIC and is a trademark of SABIC or it's affiliates or subsidiaries.Industrial 3D printer provider EOS has released the first high performance, carbon-fiber reinforced PEKK material suitable for use in its polymer systems. This can be ULTEM™ 1010, ULTEM™ 9085, or a variety of other grades of PEI. Vision Miner customer service and support for Intamsys’ Funmat printer line is founded on direct experience in PEEK 3D Printing, among only a handful of companies worldwide. Vision Miner is committed to discover how best to handle and harness PEEK as an evolving high-performance thermoplastic.Vision Miner staff perform tests on many dozens of PEEK projects.Vision Miner staff work directly with customers over-the-phone and in-person.Vision Miner explores PEEK, PEI, and other high-performance plastics first-hand as printing substances. ![]() Vision Miner staff spend all their efforts serving industries.Vision Miner is on the cutting edge of this new technology, where few US distributors of PEEK-capable printers even exist.However, knowledge about PEEK as an extruded filament is undocumented, because Stratasys’ patents have prevented using 3D Printers capable of handling high-temperature thermoplastic. This important distinction was explored by companies like Intamsys, to manufacture new machines capable of printing other recently available high-temperature, advanced thermoplastics.Īn Internet search for PEEK or Polyether Ether Ketone reveals PEEK in powder, pellet, or raw block form, used for manufacturing since the 1980s. Current PEEK-capable printers exist, because the patent protects only fully-enclosed printers with printing elements on the exterior. Patent 6722872 registers temperature-controlled FDM machines, but it expires in several years. Most 3D Printers are FDM-based, including PEEK-capable printers. But when Stratasys’ FDM patent expired in 2009, other companies and individuals entered the market to create 3D printers. Their two patents were immensely important to the rise of PEEK use and other high-temperature thermoplastics. FDM as an additive manufacturing technique was also patented by Stratasys, in the late 1990s. “Fused Deposition Modeling” refers to melting filament, which is deposited in layers that fuse together during cooling. Their US Patent 6722872 protects designs of fully-enclosed, temperature-controlled “FDM” devices. This enclosure technology was originally patented by 3D Printing company Stratasys in the early 1990s. These are fully-enclosed, temperature-controlled printers from companies like Intamsys. PEEK 3D Printing is possible because integral heating elements are used. Formulating PEEK into filament for 3D printing was an important and creative innovation. PEEK plastic was developed in the 1980s by Victrex and has expanded since the 1990s, via other chemical firms. Warp-Free Polycarbonate (PC) 3D Printing.PEEK, PEI, PAEK, ULTEM™: What Does It All Mean?.3D Printing: What’s Too Hot or Too Cold?.3D Printing: Support Structures Explained!.3D Printer Bed Temps: Too Hot or Too Cold?.3D Printing: What the Pros Recommend- Tuning Your Filament / Material. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |