Webinar: Additively Manufactured Rocket Engine
6月 10, 2021 | Gina Naujokat
Microlaunchers are an alternative to conventional launch vehicles. They are designed to launch small satellites into space. Fraunhofer IWS and the TU in Dresden developed an additively manufactured rocket engine.
The industrial computed tomography (CT) is the most efficient technology for non-destructive testing (NDT) when additive manufactured (3D printed) structures are to be examined. The dataset obtained from a CT scan allows researchers to examine additive parts without deterioration and to draw conclusions on the printing process, specific parameters and material properties.
In the webinar you can learn more about how CT supports the evolvement of new designs and functionalities that are only available with additive manufacturing.
Microlaunchers are an alternative to conventional launch vehicles. Able to carry payloads of up to 350 kilograms, these midsized transport systems are designed to launch small satellites into space. Researchers at the Fraunhofer IWS and the TU in Dresden developed an additively manufactured rocket engine with an aerospike nozzle for microlaunchers. The scaled metal prototype is expected to consume 30 percent less fuel than conventional engines on the way to orbit.
Dr. Elena Lopez from Fraunhofer IWS explains in this webinar the advantages of laser powder bed fusion in building this part that is difficult to produce with conventional casting or milling technology. Particularly the labyrinth of inner cooling ducts was a challenge that the researchers at Fraunhofer IWS successfully solved using post-processing and NDT.
At the end of the session Dr. Lopez answers questions of the interested audience.
You can download the complete article, published in Aerospace Testing International here.
最新の投稿
Dragonflyを用いた鋳造品の高速気孔分析
9月 29, 2023 | Gina Naujokat
Dragonflyを用いたCTによる、気孔を評価するための3つのシンプルな(そして高速な!)方法をご覧ください。各方法はマクロを使用して自動化でき、その方法と必要な分析時間の詳細を記載したアプリケーションノートをダウンロードできます。
もっと見るコンピュータ断層撮影で地球の歴史を数百万年さかのぼる
7月 27, 2023 | Gina Naujokat
あるホルシュタイン岩の堆積スラブについて、コンピュータ断層撮影を用いて化石の含有量を調査することになりました。最新のCT技術は、誰も予想していなかった結果をもたらしました。
もっと見るUnveiling the Mysteries of Life's Origins: Comet Yxlon and our Partnership with the Museum für Naturkunde Berlin
6月 06, 2023 | Isabella Drolz
Have you ever pondered the wondrous journey of life, from conception to birth? At Comet Yxlon, we are proud to support the Museum für Naturkunde Berlin in their quest to answer this profound question through the innovative application of CT technology.
もっと見る