The main body parts of the dummy were designed to be fixed together with ball joints and angle joints that are lockable in various positions, enabling the simulation of passenger movement inside the vehicle. It also had needed sensors to measure air temperature, air velocity, radiation and relative humidity on the surface of the body panels.
The CAD data for the dummy was sent to ARRK’s prototyping center in Gloucester, where 26 components were 3D printed with ARRK’s selective laser sintering (SLS) process using glass filled nylon material. Those components included the dummy’s head, arms, legs, torso, hands and feet. In addition to the 3D printed parts, more than 60 components were CNC machined from steel and aluminum. These parts also included some welded fabrications that the Gloucester team fitted inside the SLS 3D printed parts.
The project designers, who are based at ARRK Engineering’s site in Cluj-Napoca, Romania, communicated regularly with the prototyping team to make sure that the parts were being built to schedule and and in line with the characteristics specified for each component. The parts were then painted in ARRK’s in-house paint shop and color matched to exact RAL requirements.
3D printing has been used to make crash test dummies as well; the technology is useful in that it can create easily customized dummies to represent people of all ages, sizes, genders and body types. Humanetics, which makes crash test dummies, is even considering making 3D printed replicas of individual organs in order to better understand how each organ can be impacted by an automobile accident. 3D printing is allowing testing dummies, whether for crash testing or other purposes, to be made more and more realistic.
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[Images: ARRK]