by Maylin Homfeldt, translated by Niko Steiner
Fig.1: On the left is a layered cake, in the middle is a metal component from 3D printing and on the right is Selective Laser Melting (3D printing process). © M. Homfeldt
Pastry chefs use a very similar method to 3D printers – they make their cakes in layers. In doing so, they encounter problems that also arise in metal 3D printing – the layers must be uniform to produce a beautifully shaped cake or a dimensionally accurate component. There are new findings from the science confectionery about how to achieve the uniformity of the layers in metal 3D printing.
by Julius Bihler, translated by Niko Steiner
Figure 1: During a rocket launch, vibrations occur in the fuel tank that can even influence the flight path. © Pixabay
Space rockets are rigid giants that overcome the Earth’s gravity with unimaginable force and reach outer space. But are they really as rigid as they look from afar? You have probably never sat IN a rocket to be able to judge that from close up. This article takes you to the inside of a rocket and what goes on there.
by Inga Meyenborg, translated by Greta Sondej
Fig.: Copyright © ZMorph3D 2019 / Pixabay
Anyone can print out a photo of a whistle at home with a classic inkjet printer. But no sounds can be elicited from this image. That is left to one’s own imagination. To create a three-dimensional, functional product, a different printing process is needed.
Even those who do not follow on engineering and manufacturing techniques have probably heard or read something about “3D printing”. But what exactly does “3D printing” mean?
Launch Campaign in Esrange as the Highlight of the REXUS/BEXUS Programme
by Greta Sondej and Christoph Kulmann
Fig. 1: The REXUS 25 sounding rocket on its way to the stars. Copyright © FORAREX 2019
“There is no comfortable path that leads from the earth to the stars”, this was already known by the Roman philosopher and naturalist Lucius Annaeus Seneca (ca. 4 BC – 65 AD), also known as Seneca the Younger.
For our journey to the stars, we have been working towards this event for almost two years with our FORAREX project: The Launch Campaign at the European Space and Sounding Rocket Range (Esrange) at the civilian balloon and rocket launch site near Kiruna in northern Sweden. It is the highlight of the German-Swedish student programme REXUS/BEXUS, which we have already presented here on the Science Blog.
by Christoph Kulmann and Greta Sondej
Fig. 1: With a bit of luck, you can see northern lights (Aurora borealis) in the night sky during the training week. Copyright © WikiImages 2012 / Pixabay
Long anticipated and eagerly awaited, our student training week starts in snowy Lapland near Sweden’s northernmost city: Kiruna (from the North Sami “giron”, meaning “snow grouse”).
Bremen Airport is already getting us in the mood for the weather that awaits us in Lapland…
An European Education Programme Empowers Students to Develop Their own Space Mission
by Greta Sondej and Christoph Kulmann
Fig. 1: Have you always wanted to send an experiment into space? In this case, the German-Swedish student programme REXUS/BEXUS is the right choice for you. Copyright © Arek Socha 2016 / Pixabay
In our last article, we told you about our FORAREX project, which we developed within the framework of the German-Swedish REXUS/BEXUS programme.
But what exactly does this REXUS/BEXUS programme entail? And who can participate?
How a Single-Celled Organism Finds its Way From the Sea Into Outer Space
by Team FORAREX
Fig. 1: Maximum relaxation – lounging on the seabed and swaying to the rhythm of the waves. Copyright © StockSnap 2017 / Pixabay
Imagine you are living under the sea. You see the suns rays shining through the water. There is sand beneath you. The water flows around you to the rhythm of the wave – and you sway with it (see Fig. 1). Everything feels very pleasant. You are thinking how wonderful your home is. The waves, the light – everything is perfect.
But suddenly a dark shadow looms over you – and this shadow takes you out of this paradise and catapults you into space! Isn’t that a disturbing and rather improbable idea?
But that is in fact my story.
What is it about the 2D wonder material that makes physicists and science fiction fans dream of the future?
We will find out what the hype is based on and how we can produce this material of superlatives at home.