Stratasys Produces 3D Printed Parts For New Airbus Aircraft

By on May 13th, 2015 in Usage

Tags: ,

Stratasys announced that Airbus has produced more than 1000 flight parts on its Stratasys FDM 3D Production Systems for use in the first-of-type A350 XWB aircraft, which was delivered in December 2014. 

Airbus initiated development and certification of 3D printing with Stratasys in 2013 as a scheduled risk reduction activity for the A350 XWB program, and the 3D printed parts were used in place of traditionally manufactured parts to increase supply chain flexibility, which helped Airbus meet its delivery commitment on-time. 

The parts are 3D printed from ULTEM 9085 resin for FDM, which is certified to Airbus material specifications. ULTEM 9085 resin has a high strength-to-weight ratio and is FST (flame, smoke, and toxicity) compliant for aircraft interior applications. The goal was for Airbus to manufacture strong, lighter weight parts while substantially reducing production time and manufacturing costs.

“We are delighted that Stratasys additive manufacturing solutions are being adopted by Airbus for its flagship A350 XWB (extra wide body) aircraft. Both companies share a vision of applying innovative technologies to design and manufacturing to create game-changing benefits,” according to Dan Yalon, Executive Vice President, Business Development, Marketing & Vertical Solutions for Stratasys. “Our additive manufacturing solutions can produce complex parts on-demand, ensuring on time delivery while streamlining supply chains. Additive manufacturing also greatly improves the buy-to-fly ratio as significantly less material is wasted than with conventional manufacturing methods. Stratasys is looking forward to bringing these and other advantages to its collaboration with Airbus and to being part of Airbus’ Factory of the Future initiative.”

Aerospace and automotive companies are increasingly partnering with 3D printer manufacturers to adopt and test additive manufacturing strategies. Additive manufacturing enables original and replacement parts to be digitally produced at the best suited locations, reducing both material waste and inventory requirements. By adopting additive manufacturing throughout the product lifecycle, companies can reduce operational costs, accelerate time to market, decentralize production, and add new innovative product functionality.  

Read more at ENGINEERING.com

By ENGINEERING.com

ENGINEERING.com provides a variety of news and services to the engineering discipline worldwide and publishes a popular online blog focusing on the art of making in the industrial world.