stevegamer
Well-Known Member
- Joined
- Apr 8, 2025
- Messages
- 101
- Karma
- 0
The centuries-old Japanese art of origami is being reimagined as a foundation for cutting-edge materials that combine the stability of solids with the adaptability of deformable structures. Researchers at Georgia Tech and collaborating institutions have developed a new framework for designing materials that "fold" in predictable ways when subjected to stress, opening possibilities for applications ranging from heart stents to airplane wings.
The study, published in Nature Communications under the title "Coarse-grained fundamental forms for characterizing isometries of trapezoid-based origami metamaterials," was led by James McInerney, now an NRC Research Associate at the Air Force Research Laboratory. McInerney conducted the work while a postdoctoral researcher at the University of Michigan, having previously earned his doctorate at Georgia Tech under co-author Zeb Rocklin. Collaborators also included researchers from Princeton University, the University of Michigan, and the University of Trento.
Origami’s appeal in material science lies in its ability to transform flat sheets into complex three-dimensional structures using simple folds. “We were interested in how different folding geometries could influence a material’s deformation under force,” McInerney said. Much like a creased piece of cardboard that folds cleanly compared to an unmarked one that crumples unpredictably, materials designed with origami principles could deform in controlled ways, allowing engineers to enhance structural performance without adding extra weight.
Such precision is especially useful in industries where reducing weight while maximizing strength is crucial, including aerospace, civil engineering, and wearable technologies. “Our ultimate aim is to reinforce load-bearing structures using origami-based designs, without compromising on weight,” McInerney noted.
github.com
github.com
github.com
github.com
github.com
github.com
github.com
github.com
github.com
github.com
github.com
github.com
github.com
github.com
github.com
github.com
github.com
github.com
github.com
github.com
github.com
github.com
Zeb Rocklin, a theoretical physicist at Georgia Tech, pointed out the unique challenge these materials present. “A sheet of paper is solid when pulled, yet it can still bend or crumple,” he explained. “This dual behavior makes it incredibly versatile, but also very difficult to model.” Conventional physics often falls short when trying to predict how such materials will respond under stress, he added.
Until now, most modeling efforts were limited to origami patterns made from parallelograms—shapes with two sets of parallel sides, such as squares and rectangles. These models only allowed for certain types of controlled deformation. The new study extends the design space by incorporating trapezoid-based folds, which have only one set of parallel sides. This additional geometric flexibility presents greater complexity in modeling but significantly broadens the range of possible behaviors.
By advancing the theoretical understanding of how trapezoidal origami patterns behave under pressure, the researchers are setting the stage for more adaptable and lightweight materials that could transform both everyday products and advanced engineering systems.
The study, published in Nature Communications under the title "Coarse-grained fundamental forms for characterizing isometries of trapezoid-based origami metamaterials," was led by James McInerney, now an NRC Research Associate at the Air Force Research Laboratory. McInerney conducted the work while a postdoctoral researcher at the University of Michigan, having previously earned his doctorate at Georgia Tech under co-author Zeb Rocklin. Collaborators also included researchers from Princeton University, the University of Michigan, and the University of Trento.
Origami’s appeal in material science lies in its ability to transform flat sheets into complex three-dimensional structures using simple folds. “We were interested in how different folding geometries could influence a material’s deformation under force,” McInerney said. Much like a creased piece of cardboard that folds cleanly compared to an unmarked one that crumples unpredictably, materials designed with origami principles could deform in controlled ways, allowing engineers to enhance structural performance without adding extra weight.
Such precision is especially useful in industries where reducing weight while maximizing strength is crucial, including aerospace, civil engineering, and wearable technologies. “Our ultimate aim is to reinforce load-bearing structures using origami-based designs, without compromising on weight,” McInerney noted.
GitHub - BrianTMN/Rainbow-Six-Mobile-MOD-unlimited-money: Rainbow Six Mobile MOD unlimited money
Rainbow Six Mobile MOD unlimited money. Contribute to BrianTMN/Rainbow-Six-Mobile-MOD-unlimited-money development by creating an account on GitHub.
github.com
GitHub - JasonBTD/Temple-Run-2-unlimited-coins-and-gems-MOD: Temple Run 2 unlimited coins and gems MOD
Temple Run 2 unlimited coins and gems MOD. Contribute to JasonBTD/Temple-Run-2-unlimited-coins-and-gems-MOD development by creating an account on GitHub.
github.com
GitHub - KevinBMT/50-Tiny-Room-Escape-unlimited-keys-and-coins-MOD: 50 Tiny Room Escape unlimited keys and coins MOD
50 Tiny Room Escape unlimited keys and coins MOD. Contribute to KevinBMT/50-Tiny-Room-Escape-unlimited-keys-and-coins-MOD development by creating an account on GitHub.
github.com
GitHub - DavidFNT/Grand-Gangster-War-unlimited-money-MOD: Grand Gangster War unlimited money MOD
Grand Gangster War unlimited money MOD. Contribute to DavidFNT/Grand-Gangster-War-unlimited-money-MOD development by creating an account on GitHub.
github.com
GitHub - AndrewGNT/Happy-Diner-Story-unlimited-money-and-gems-MOD: Happy Diner Story unlimited money and gems MOD
Happy Diner Story unlimited money and gems MOD. Contribute to AndrewGNT/Happy-Diner-Story-unlimited-money-and-gems-MOD development by creating an account on GitHub.
github.com
GitHub - StephenGNA/Realms-of-Pixel-MOD-unlimited-everything: Realms of Pixel MOD unlimited everything
Realms of Pixel MOD unlimited everything. Contribute to StephenGNA/Realms-of-Pixel-MOD-unlimited-everything development by creating an account on GitHub.
github.com
GitHub - EricBNT/Run-Goddess-MOD-unlimited-money-and-gems: Run! Goddess MOD unlimited money and gems
Run! Goddess MOD unlimited money and gems. Contribute to EricBNT/Run-Goddess-MOD-unlimited-money-and-gems development by creating an account on GitHub.
github.com
GitHub - AlexanderPGN/State-Connect-Traffic-Control-unlimited-money-and-gems-MOD: State Connect: Traffic Control unlimited money and gems MOD
State Connect: Traffic Control unlimited money and gems MOD - AlexanderPGN/State-Connect-Traffic-Control-unlimited-money-and-gems-MOD
github.com
GitHub - KyleNBO/Spider-Fighter-3-unlimited-money-MOD: Spider Fighter 3 unlimited money MOD
Spider Fighter 3 unlimited money MOD. Contribute to KyleNBO/Spider-Fighter-3-unlimited-money-MOD development by creating an account on GitHub.
github.com
GitHub - ScottBND/Flex-City-unlimited-money-and-gold-MOD: Flex City unlimited money and gold MOD
Flex City unlimited money and gold MOD. Contribute to ScottBND/Flex-City-unlimited-money-and-gold-MOD development by creating an account on GitHub.
github.com
GitHub - TravisMBR/Agent-Hunt-unlimited-money-MOD: Agent Hunt unlimited money MOD
Agent Hunt unlimited money MOD. Contribute to TravisMBR/Agent-Hunt-unlimited-money-MOD development by creating an account on GitHub.
github.com
GitHub - ShaneGNC/War-Machines-unlimited-money-and-diamonds-MOD: War Machines unlimited money and diamonds MOD
War Machines unlimited money and diamonds MOD. Contribute to ShaneGNC/War-Machines-unlimited-money-and-diamonds-MOD development by creating an account on GitHub.
github.com
GitHub - TimothyKBT/Standoff-2-unlimited-gold-MOD: Standoff 2 unlimited gold MOD
Standoff 2 unlimited gold MOD. Contribute to TimothyKBT/Standoff-2-unlimited-gold-MOD development by creating an account on GitHub.
github.com
GitHub - GregTNB/Critical-Strike-CS-Online-FPS-unlimited-money-MOD: Critical Strike CS: Online FPS unlimited money MOD
Critical Strike CS: Online FPS unlimited money MOD - GregTNB/Critical-Strike-CS-Online-FPS-unlimited-money-MOD
github.com
GitHub - JoelKNV/Space-Survivor-unlimited-money-and-gems-MOD: Space Survivor unlimited money and gems MOD
Space Survivor unlimited money and gems MOD. Contribute to JoelKNV/Space-Survivor-unlimited-money-and-gems-MOD development by creating an account on GitHub.
github.com
GitHub - TroyMBC/World-War-Heroes-unlimited-gold-MOD: World War Heroes unlimited gold MOD
World War Heroes unlimited gold MOD. Contribute to TroyMBC/World-War-Heroes-unlimited-gold-MOD development by creating an account on GitHub.
github.com
GitHub - DennisKMB/Once-Human-MOD-unlimited-Crystgin: Once Human MOD unlimited Crystgin
Once Human MOD unlimited Crystgin. Contribute to DennisKMB/Once-Human-MOD-unlimited-Crystgin development by creating an account on GitHub.
github.com
GitHub - DevonMNB/Suzy-s-Restaurant-unlimited-money-MOD: Suzy's Restaurant unlimited money MOD
Suzy's Restaurant unlimited money MOD. Contribute to DevonMNB/Suzy-s-Restaurant-unlimited-money-MOD development by creating an account on GitHub.
github.com
GitHub - DustinBRM/FPS-Strike-Ops-Modern-Arena-unlimited-money-MOD: FPS Strike Ops : Modern Arena unlimited money MOD
FPS Strike Ops : Modern Arena unlimited money MOD. Contribute to DustinBRM/FPS-Strike-Ops-Modern-Arena-unlimited-money-MOD development by creating an account on GitHub.
github.com
GitHub - KevinHSN/Grunt-Rush-Battle-and-Conquer-MOD-unlimited-money-and-gems: Grunt Rush: Battle and Conquer MOD unlimited money and gems
Grunt Rush: Battle and Conquer MOD unlimited money and gems - KevinHSN/Grunt-Rush-Battle-and-Conquer-MOD-unlimited-money-and-gems
github.com
GitHub - DaveALG/Top-Heroes-Kingdom-Saga-MOD-unlimited-everything: Top Heroes: Kingdom Saga MOD unlimited everything
Top Heroes: Kingdom Saga MOD unlimited everything. Contribute to DaveALG/Top-Heroes-Kingdom-Saga-MOD-unlimited-everything development by creating an account on GitHub.
github.com
GitHub - jasonRBL/Archers-Online-PvP-unlimited-money-and-gems-MOD: Archers Online: PvP unlimited money and gems MOD
Archers Online: PvP unlimited money and gems MOD. Contribute to jasonRBL/Archers-Online-PvP-unlimited-money-and-gems-MOD development by creating an account on GitHub.
github.com
Zeb Rocklin, a theoretical physicist at Georgia Tech, pointed out the unique challenge these materials present. “A sheet of paper is solid when pulled, yet it can still bend or crumple,” he explained. “This dual behavior makes it incredibly versatile, but also very difficult to model.” Conventional physics often falls short when trying to predict how such materials will respond under stress, he added.
Until now, most modeling efforts were limited to origami patterns made from parallelograms—shapes with two sets of parallel sides, such as squares and rectangles. These models only allowed for certain types of controlled deformation. The new study extends the design space by incorporating trapezoid-based folds, which have only one set of parallel sides. This additional geometric flexibility presents greater complexity in modeling but significantly broadens the range of possible behaviors.
By advancing the theoretical understanding of how trapezoidal origami patterns behave under pressure, the researchers are setting the stage for more adaptable and lightweight materials that could transform both everyday products and advanced engineering systems.