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Question of the Day: Most heinous act of badge engineering?

Badge engineering, in which one company slaps its emblems on another company's product and sells it, has a long history in the automotive industry. When Sears wanted to sell cars, a deal was made with Kaiser-Frazer and the Sears Allstate was born. Iranians wanted new cars in the 1960s, and the Rootes Group was happy to offer Hillman Hunters for sale as Iran Khodro Paykans. Sometimes, though, certain badge-engineered vehicles made sense only in the 26th hour of negotiations between companies. The Suzuki Equator, say, which was a puzzling rebadge job of the Nissan Frontier. How did that happen? My personal favorite what-the-heck-were-they-thinking example of badge engineering is the 1971-1973 Plymouth Cricket. Chrysler Europe, through its ownership of the Rootes Group, was able to ship over Hillman Avanger subcompacts for sale in the US market. This would have made sense... if Chrysler hadn't already been selling rebadged Mitsubishi Colt Galants (as Dodge Colts) and Simca 1100s as (Simca 1204s) in its American showrooms. Few bought the Cricket, despite its cheery ad campaign. So, what's the badge-engineered car you find most confounding? Chrysler Dodge Automakers Mitsubishi Nissan Suzuki Automotive History question of the day badge engineering question

Pretty scenery alert: Nissan Leaf drives up a volcano on Maui

Gravity taketh away but gravity giveth back, Nissan is trying to teach all of us. The Japanese automaker has posted a two-minute video about Maui resident Neil Wagner using his Nissan Leaf to catch the legendary sunrise over the volcano in Haleakala National Park. After climbing the more-than-10,000-foot elevation, the Leaf is shown having lost about 84 percent of its usable battery capacity. The finer point, though, is that electric vehicles have a regenerative braking system, meaning that the downhill ride and all of its switchbacks actually replenish battery capacity. Of course, the video didn't show exactly how much of that capacity was replenished, but the point is well-made, and with really cool scenery. Sales for the Leaf have already been strong this year. Through the first three months of the year, Nissan boosted sales 46 percent from 2013 numbers up to 5,184 units. This is after more than doubling sales last year to 22,610 units. And, for anyone curious, there are six publicly-accessible plug-in vehicle charging stations in Kahului and another eight in Lahaina, two of Maui's largest cities, according to the US Department of Energy. We're pretty sure that Mr. Wagner already knows that but we're going to take notes in case we need to make the sunrise drive one day. For now, we're going to check out Nissan's two-minute video below one more time. This content is hosted by a third party. To view it, please update your privacy preferences. Manage Settings.

Nissan Leaf battery cells put through torture test, live to charge again

One minor chink in the armor of the Tesla Model S is that a small number have caught fire, once their battery packs were penetrated. Nissan Leaf drivers, however, might just be able to weather such an event without an ensuing CarBQ. Our evidence for such a claim? A video that has surfaced of cells from a Leaf pack undergoing a battery of torture tests (pun somewhat-ashamedly intended). Shared by folks at the Hybrid Auto Center in Las Vegas – who offer for sale, among other things, used Leaf lithium battery modules – the footage shows salvaged cells being brutally assaulted with a screwdriver, and later, a propane torch. Granted, these tests are not the same thing as flinging a piece of metal into a working pack at 70 miles per hour, but they do claim to show that a puncture does not always equal a fire. Oh, and don't try this at home. When pierced through by the flat head tool, there is no explosion or eruption of flame. Instead, a rather modest wisp of smoke shyly emerges as the electrolyte next to the shorted area of the fully-charged foil pouch reacts with the influx of oxygen. Again and again, the blade descends, until the cell is riddled with holes. No fire. Amazingly, when connected with a voltmeter afterward there are still plenty of signs of life, and when it is charged and discharged (off-camera), it reportedly suffers only a slight loss of charge capacity. The video goes on to show another cell attacked with open flame with similar results. While the demonstration is, perhaps, somewhat crude, the message it sends is loud and clear: lithium batteries can be safe and rather robust, despite some freak accidents. Scroll below to watch the short presentation for yourself. This content is hosted by a third party. To view it, please update your privacy preferences. Manage Settings.