MacCurdy said that foams can be excellent at taking in blows, however they have a major downside: If you squeeze a foam hard enough, it will ultimately compress down into a stiff wad.In laboratory experiments, engineers at CU Boulder 3D printed new designs for padding, then squashed them with an effective device. The groups creations stood up to the impacts, absorbing numerous times more energy that standard styles, or foams, made out of the exact same product. Thats a more efficient way to take in forces.But, MacCurdy kept in mind, researchers have long aimed for cushioning that satisfies a gold standard– innovation that does not just absorb a lot of force, but can also absorb many various kinds of forces with the very same finesse.
MacCurdy stated that foams can be excellent at absorbing blows, however they have a major downside: If you squeeze a foam hard enough, it will eventually compress down into a stiff wad.In lab experiments, engineers at CU Boulder 3D printed new designs for cushioning, then crushed them with a powerful maker. The groups creations stood up to the effects, absorbing several times more energy that standard styles, or foams, made out of the exact same material.” The product you utilize for taking in impacts matters,” MacCurdy said. Thats a more efficient way to absorb forces.But, MacCurdy kept in mind, researchers have long strived for padding that satisfies a gold requirement– innovation that does not just take in a lot of force, however can likewise soak up many various kinds of forces with the same skill. They squeezed them with an impact-testing machine.The group found that its blocks might soak up approximately six times more energy than basic foams made out of the exact same product, and up to 25% more than other honeycomb styles.