Shannon Griffin. Honda. October 18th , 2017.
The new Odyssey greatly benefits from a much more rigid and tightly sealed body with substantially increased use of structural adhesives and sealers, as well as new front and rear suspension subframes and extensive aerodynamic tailoring to form the basis for a quiet vehicle. Additionally, the 2018 Odyssey uses a refined, multiple-tier insulation package that takes noise, vibration and harshness (NVH) countermeasures to the next level, positioning it at the top of its competitive set.
To provide extra sound insulation by blocking off hollow pillars, acoustic spray foam is applied in 14 locations in the Odyssey body for the first time in Honda history. The areas include the base of the A-, B-, C- and D-pillars, as well as the base of the windshield frame and at the top of the C- and D-pillars. In addition, acoustic tape is applied at base of the A-, B- and C-pillars, and a foam stopper is applied to the bottom of the B-pillar. Altogether, the use of these body sealing techniques results in a 55-percent reduction in body leaks, which significantly reduces noise entering the cabin in critical sections. All foam and acoustic tape application is done while the unit-body is in its just manufactured "body-in-white" form - before attachment of key components and assemblies.
Unique C-shaped taillights give the Honda Odyssey a more luxurious and modern rear appearance, as does expansive chrome trim joining the taillights across the tailgate. Additional character lines visually divide the tailgate into lower, mid and upper segments, with light playing differently on each surface for more visual appeal.
Located under the front floor of the new Honda Odyssey is a variation of the "3-Bone" structure used in the Pilot that improves impact load management, directing energy around the passenger cabin in the event of a frontal collision. The structure creates three different load pathways, or "backbones," that channel collision energy. One channels collision forces from the front of the vehicle directly underneath the passenger cabin; the other two channel collision forces under the vehicle left and right side frames. The result is an improved capability to safely channel energy during a frontal crash.
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