Aerospace and Mechanical Insider on MSN

Origami engineering unlocks spacecraft design challenges

Aerospace engineering professor Manan Arya refers to it as the “suitcase problem,” a challenge not of clothing but of fitting ...
From muscle atrophy to bone loss, astronauts face a number of health risks while in space. It's easy to understand why. The human body relies on Earth's gravity to work out muscles and support other ...
If you've ever opened an umbrella or set up a folding chair, you've used a deployable structure - an object that can transition from a compact state to an expanded one. You've probably noticed that ...
The ability for structures to change geometry in order to deliver a particular capability can be useful in a range of applications, including biomedical engineering, robotics, aerospace and civil ...
Deployable structures for space applications are engineered to transition from compactly stowed configurations to large functional forms once in orbit. This capability enables the delivery of ...
Transition waves provide a platform for realizing deployable structures that can be expanded quickly and locked into place after deployment, according to a study. Deployable structures, such as the ...
Rivian could add a deployable roof-top canopy to the list of accessories for its EVs, if a recent patent filing is any indication. The automaker filed a patent application titled "Canopy with ...
Abstract: Deployable space structures are compacted and stowed during launch, and unfurled to their full dimensions once in space, enabling the large systems necessary to advance space science and ...
Sudarshan Krishnan, professor in architecture, has been developing deployable and moving structures that could broaden an architect’s knowledge of structures. The deployable structures Krishnan built ...
Researchers have harnessed the domino effect to design deployable systems that expand quickly with a small push and are stable and locked into place after deployment. If you've ever opened an umbrella ...