Vehicle seats do more than just cradle an occupant. A seat is also a makeshift knee rest, a stepladder, a desk, a tray and sometimes, a bed. Most of all, it should address the occasional mayhem of life with comfort, style and sturdiness.
The seats in the Chevrolet Traverse have been stomped on, crushed, and pressed thousands of times to ensure they stand up to the rigorous demands placed on them.
Long before the Traverse went on sale, General Motors engineers put the seats of the eight-passenger crossover through an intense series of tests to ensure high quality, maximum comfort and long-term durability.
GM seat validation engineer Mario Zaccagnini and his team used state-of-the-art robotic technology to test the comfort and integrity of the seat cushions, as well as the seat frames and their attachments to the vehicle body. The robots simulated a variety of body types entering, sitting and exiting the vehicle. Programmed to mimic the range of motion of actual customers, the robots are sort of a cyber derriere. Front seats underwent up to 50,000 entry-and-exit test cycles representing more than 10 years of typical customer use.
Rear seats are subjected to testing regiments as well, including the Seat Adjuster Easy Entry Durability Test. GM engineers designed the industry first Smart Slide® second-row seat so that a 7-year-old child could safely unlock and move the seat out of the way.
“It was mandatory for us to maintain the quality of the mechanism of the seat but at the same time enable passengers, especially younger ones, to easily access the third-row seats”, Zaccagnini said. His team’s validation plan involved sliding the second-row seats fore and aft 15,000 times equal to more than a lifetime of use and abuse.
Zaccagnini and his colleagues know that Traverse customers frequently kneel on seats to retrieve packages, groceries and children from other parts of the vehicle. To ensure seats hold up to heavy knee use, the team used a knee-form plunger that simulates a human knee pushing down and applying force on different parts of the seat cushions. This helped engineers assess the long-term integrity of the seat cushion foam, fabric, suspension system and seat warmers. Engineers subjected the cushions to well over a decade’s worth of knee load exposure – a total of 30,000 robotic test cycles.
Some of these cycles were performed in extreme conditions with temperatures ranging from 5° F to 140° F and humidity of up to 80 percent.
“With a family vehicle, we think creatively about how a seat is going to be used,” said Zaccagnini. “Knowing that family life means ‘expect the unexpected,’ we go the extra mile to deliver seats that satisfy customer needs in all situations.”
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