Scientists create flat pasta that morphs into 3D shapes on cooking
Innovation could improve storage and transportation of products
Your support helps us to tell the story
As your White House correspondent, I ask the tough questions and seek the answers that matter.
Your support enables me to be in the room, pressing for transparency and accountability. Without your contributions, we wouldn't have the resources to challenge those in power.
Your donation makes it possible for us to keep doing this important work, keeping you informed every step of the way to the November election
Andrew Feinberg
White House Correspondent
An interdisciplinary team of scientists specialising in material science, mechanical engineering, and computer-aided fabrication are making a new type of pasta dough that remains flat during storage, but can morph into tubes, spirals, twists, and waves when cooked.
The scientists, including those from the Morphing Matter Lab at the Carnegie Mellon University in the US, believe this pasta innovation can help improve the packaging and transportation efficiency of instant-pasta products that hit the shelves in markets across the world.
According to the researchers, packaging pasta requires large bags and boxes to accommodate the iconic shapes of pastas around the world such as penne, rigatoni, fusilli and rotini.
In the study, published in the journal Science Advances, the scientists describe the mechanism and design principles of how their flat pasta morphs into the familiar shapes when cooked.
They made grooves on flat pasta sheets which increase the time it takes water to cook that area of the pasta.
By carefully planning where and how to place the grooves, the study noted that the shape the pasta forms when it is cooked can be controlled.
“The groove side expands less than the smooth side, leading the pasta to morph into shape,” explained Teng Zhang, an assistant professor at Syracuse University who led the modeling analysis in this project.
They believe flat-packed pasta can help save space while shipping and storing, as well as help reduce packaging waste, but retain the mouthfeel, taste, and appearance of traditional pasta when cooked.
“We were inspired by flat-packed furniture and how it saved space, made storage easier, and reduced the carbon footprint associated with transportation,” said Lining Yao, director of the Morphing Matter Lab.
Such a technique to use grooves to control morphing can be applied to any swellable material, the scientists said, adding that they could also morph silicon sheets for future applications in soft robotics and biomedical devices.
Subscribe to Independent Premium to bookmark this article
Want to bookmark your favourite articles and stories to read or reference later? Start your Independent Premium subscription today.
Join our commenting forum
Join thought-provoking conversations, follow other Independent readers and see their replies
Comments