3DPrinting.com reports that NTU Singapore is conducting tests on newly launched satellites to evaluate the performance of 3D printed materials.

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Hey there, space enthusiasts! We have some exciting news from Nanyang Technological University (NTU) in Singapore. NTU has recently achieved a major milestone in its space program by successfully launching three brand new satellites into orbit. How cool is that?

Let’s take a closer look at these cutting-edge satellites. The first one is called VELOX-AM. It’s a micro-satellite that is exploring the feasibility of using 3D printed parts in space. This includes the use of shape memory polymers that can regain their original shape after deformation. Imagine the possibilities of being able to manufacture parts in space, without having to rely on Earth for supplies!

Next up, we have ARCADE, an experimental satellite equipped with four instruments. Its mission is to study atmospheric coupling, ionospheric plasma density, atomic oxygen degradation, and Earth imaging. By gathering data from these experiments, researchers can deepen our understanding of the Earth’s atmosphere and its interactions with space.

Last but not least, we have SCOOB-II. This satellite was built by NTU students, and it features advanced electronics for testing operations in space. It also has an improved attitude control system, allowing it to maximize solar energy absorption. These students are truly pushing the boundaries of what can be achieved in space engineering.

These satellite launches not only showcase NTU’s expertise in satellite engineering, but also underscore their commitment to training the next generation of space engineers. It’s truly inspiring to see students involved in such groundbreaking projects.

And that’s not all! The recent launch of the ORB-12 STRIDER satellite, featuring a cutting-edge propulsion engine from NTU spin-off Aliena, has further highlighted Singapore’s growing capabilities in the space industry. It’s clear that Singapore is becoming a key player in the global space race.

But what makes satellite-based experiments so advantageous? Well, for starters, scientists can gather authentic data in the actual space environment, validating theoretical models and advancing scientific knowledge. Conducting multiple experiments on a single satellite also proves to be cost-effective. We all know the importance of being able to make the most out of limited resources.

Moreover, satellites provide access to remote and inaccessible regions, opening up doors for studying intricate behaviors and pushing the boundaries of scientific exploration. There’s no denying the incredible potential that lies within these small but mighty devices.

So, what are your thoughts on these exciting developments in space exploration? We’d love to hear from you on our Facebook, Twitter, and LinkedIn pages. And make sure to sign up for our weekly additive manufacturing newsletter to stay up to date with all the latest stories delivered right to your inbox.

The future of space exploration is looking brighter than ever, and NTU Singapore is at the forefront of it all. Get ready to witness more groundbreaking discoveries and advancements in satellite engineering. The sky is no longer the limit!

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