Libby Wade BMW, 2017-11-04 19:54:21. BMW i is blazing a trail when it comes to shaping the future of sustainable personal mobility. Its integrated concept focuses on responsible use of resources and incorporates material selection and innovative mobility services alongside locally emission-free driving. The BMW i3 is just as serious about the fun of driving, turning even a trip around town into an electrifying experience. The inspirational design of the BMW i3 expresses a new style, while the instantaneous power from the drive system provides an inspiring showcase for the dawn of a new era in mobility. This car’s architecture was designed from the ground up with electric mobility in mind. And its BMW eDrive technology boasts power delivery and efficiency unrivalled by any other manufacturer. All of which makes the BMW i3 a proposition as forward-looking as it is attractive. Combining the latest technological innovations with an evolutionary development of the car‘s design and the expansion of the model range has provided additional impetus for BMW‘s now familiar take on premium electric mobility. The character profiles of the new BMW i3 and new BMW i3s are focused more keenly than ever on driving pleasure, which gives them all the ingredients required to strengthen their leading position and write the next chapter in the BMW i success story.
Caitlin Duncan Honda, 2017-10-19 15:02:27. Like other Honda V6 powerplants, the Honda Odyssey engine 4-valve cylinder heads are a single-overhead-camshaft design, with the cams driven by the crankshaft via an automatically tensioned timing belt. Made of low-pressure die-cast, low-porosity aluminum, each cylinder head incorporates a "tumble port" design that improves combustion efficiency by creating a more homogeneous fuel-air mixture. An integrated exhaust manifold cast into each cylinder head reduces parts count, saves weight, improves flow and optimizes the location of the close-coupled catalyst on each cylinder bank for quick "light off."
Shannon Griffin Honda, 2017-10-18 23:59:37. The Odyssey Electronic Control Unit (ECU) monitors engine functions to determine the best ignition spark timing. Two engine block-mounted acoustic detonation/knock sensors "listen" to the engine, and based on this input, the ECU can retard the ignition timing to prevent potentially damaging detonation. The engine has an ignition coil unit for each cylinder positioned within each spark plug access bore. To help improve fuel efficiency, the Odyssey Touring and Elite are equipped with Idle-Stop capability. When the system is enabled by the driver and certain operating conditions are met, the Idle-Stop system will automatically shut off the engine when the vehicle comes to a stop. The engine is automatically restarted when the driver releases the brake pedal after a stop, or if the steering wheel is turned. If the Brake Hold system is in use, the engine quickly restarts after the throttle is depressed.
Mollie Slater Honda, 2017-10-19 15:02:27. For the first time, the new 2018 Odyssey has 1500-megapascal (MPa) ultra-high-strength steel door reinforcement beams and ultra-high-strength front door outer stiffener rings made of 1500-MPa hot-stamped steel. Laser welded and significantly stronger than ordinary steel, the ultra-high-strength steel reinforcements are designed to help better protect occupants in a frontal or side impact. Their increased strength allows the components to be made lighter which also helps reduce overall vehicle weight for improved fuel efficiency.
Eleanor Norton Honda, 2017-10-19 00:00:12. 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.
Paige Dodd Honda, 2017-10-19 15:02:27. The 2018 Odyssey enhanced Advanced Compatibility Engineering™ (ACE™) body structure is the second generation of Honda proprietary ACE structural design. ACE is an exclusive body design that enhances occupant protection and crash compatibility in frontal crashes. It uses a network of connected structural elements to distribute crash energy more evenly throughout the front of the vehicle, helping to reduce the forces transferred to the passenger compartment. It can help to more evenly disperse the forces transferred to other vehicles in a crash as well. ACE also helps reduce the chances that one vehicle will override or underride another, improving crash compatibility of vehicles that differ in size. ACE goes further by offering additional strength and protection in small overlap frontal collisions, which are among the most severe. Multiple material grades, including ultra-high-strength steel, are used in the Odyssey body construction to help optimize safety performance.
Caitlin Duncan Honda, 2017-10-18 23:59:56. 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.
Paige Dodd Honda, 2017-10-18 23:59:20. The new Odyssey makes widespread use of structural adhesives in the unit-body, supplementing structural welds and significantly increasing rigidity without the additional mass of steel components. Structural adhesives are used at the roof edges and around the moonroof opening, in the front floor and cowl area, in the A- and B-pillars, around the front suspension upper mounts, and extensively throughout the rear of the body. Applied before the body panels are welded together, some 147.6 feet of adhesives (32.8 ft. more than in the previous Odyssey generation) account for approximately 3.5 percent of the entire unit-body stiffness.
Any content, trademark/s, or other material that might be found on this site that is not this site property remains the copyright of its respective owner/s. In no way does tnahid claim ownership or responsibility for such items, and you should seek legal consent for any use of such materials from its owner.