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The modifications done to the original airbags feature a non-desiccated inflator, which could rupture upon deployment, causing metal inflator fragments to pass through the cushion material, causing injury or death. Honda did not replace the airbag in the original recall. Honda is replacing these airbags with units that feature a desiccated ...
The driver and passenger front airbag modules, after having been deployed, in a Peugeot 306. An airbag is a vehicle occupant-restraint system using a bag designed to inflate in milliseconds during a collision and then deflate afterwards. [1] It consists of an airbag cushion, a flexible fabric bag, an inflation module, and an impact sensor.
The passenger-side airbag was a "dual-stage" airbag, meaning that the impact sensors determined the force used to deploy the airbag based on the severity of the impact. Of the original fleet of Chevrolets, virtually all were eventually disposed of except one, which is currently fully restored.
The company only counted incidents resulting in head-on collisions in which the airbags did not deploy. It did not include, for example, an incident where after a car's ignition switch failed, the car "spun out, hydroplaned, hit an oncoming vehicle and rolled off the road, dropping 15 feet into a creek". [15]
One complication is that the small explosives or compressed air canisters that deploy the airbag might need to be emptied or expended in order to fly on a commercial airplane. Though the International Air Transport Association has approved carrying charged devices, the U.S. Transportation Security Administration requires that they be discharged.
In the US 49/563.5 regulatory framework, Event data recorder is defined as a . a device or function in a vehicle that records the vehicle's dynamic time-series data during the time period just prior to a crash event (e.g., vehicle speed vs. time) or during a crash event (e.g., delta-V vs. time), intended for retrieval after the crash event.
Airbags deploy at speeds up to 320 km/h (200 mph; 89 m/s) and in some cases exert tremendous force on the windshield. Occupants can impact the airbag just 50 ms after initial deployment. [9] Depending on vehicle design, airbag deployment and/or occupant impact into the airbag may increase forces on the windshield, dramatically in some cases.
Already such small devices, known as Microelectromechanical systems (MEMS), are used in automobiles to initiate the deployment of airbags, in digital projectors to create sharper images, and in inkjet printers to create nozzles for high-definition printing. In the future, it is hoped that such devices will be used in tiny implantable medical ...