Engineers at RMIT College have designed an progressive tubular structural system that may be packed flat for simpler transport and pop up into sturdy constructing supplies. This breakthrough is made doable by a self-locking system impressed by curved-crease origami—a method that makes use of curved crease strains in paper folding.
Lead researchers Dr. Jeff (Ting-Uei) Lee and Distinguished Professor Mike (Yi Min) Xie, mentioned that bamboo, which has inside constructions offering pure reinforcement, impressed the tube design.
“This self-locking system is the results of an clever geometric design,” mentioned Lee, from RMIT’s Faculty of Engineering. “Our invention is appropriate for large-scale use—a panel, weighing simply 1.3 kg, made out of a number of tubes can simply assist a 75 kg particular person.”
Flat-pack tubes are already broadly utilized in engineering and scientific functions, akin to in biomedical gadgets, aerospace constructions, robotics and civil building, together with pop-up buildings as a part of catastrophe restoration efforts.
The brand new system makes these tubes faster and simpler to assemble, with the aptitude to routinely rework into a powerful, self-locked state.
The analysis is printed in Proceedings of the Nationwide Academy of Sciences. Different contributors to this work embrace Drs Hongjia Lu, Jiaming Ma and Ngoc San Ha from RMIT’s Faculty of Engineering and Affiliate Professor Joseph Gattas from the College of Queensland.
“Our analysis not solely opens up new potentialities for progressive and multifunctional structural designs, however it will probably additionally considerably enhance present deployable programs,” mentioned Xie, from the Faculty of Engineering.
“When NASA deploys photo voltaic arrays, for instance, the booms used are tubes that had been packed flat earlier than being unfurled in house,” Lee mentioned. “These tubes are hole, although, so they may doubtlessly deform below sure forces in house. With our new design, these booms could possibly be a stronger construction.”
Xie defined that their sensible algorithm enabled management over how the construction behaved below forces by altering the tube orientations.
“With our origami-inspired innovation, flat-pack tubes should not solely simple to move, however in addition they turn into sturdy sufficient to face up to exterior forces when in use,” Xie mentioned. “The tube can also be self-locking, which means its sturdy form is securely locked in place with out the necessity for further mechanisms or human intervention.”
Subsequent steps
The workforce will proceed to enhance the design and discover new potentialities for its growth.
“We intention to increase the self-locking function to completely different tube shapes and check how the tubes carry out below varied forces, akin to bending and twisting,” Lee mentioned. “We’re additionally exploring new supplies and manufacturing strategies to create smaller, extra exact tubes.”
The workforce is creating tubes that may deploy themselves for a spread of functions while not having a lot guide effort.
“We plan to enhance our sensible algorithm to make the tubes much more adaptable and environment friendly for various real-world conditions,” Xie mentioned.
Extra info:
Xie, Yi Min et al, Self-locking and stiffening deployable tubular constructions, Proceedings of the Nationwide Academy of Sciences (2024). DOI: 10.1073/pnas.2409062121. doi.org/10.1073/pnas.2409062121
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New origami-inspired system turns flat-pack tubes into sturdy constructing supplies (2024, September 23)
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