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Ford celebrating 80 years of Aussie utes as it prepares to shutter Oz manufacturing

Ford is ending Australian production after 90 years in 2016, and with it may go perhaps the most iconic vehicles in its auto market - the ute. Car-based pickup trucks like the Ford Ranchero and Chevrolet El Camino were always more of a curiosity than a true market force here, but in Australia, they have long proven hugely popular.
As the legend goes, Ford invented the niche after a farmer's wife had asked Ford Australia's managing director for a more utilitarian car. Her request was simple: "My husband and I can't afford a car and a truck but we need a car to go to church on Sunday and a truck to take the pigs to market on Monday. Can you help?"
Ford's design team came up with a two-passenger, enclosed, steel coupe body with glass windows and a steel-paneled, wooden-frame load area in the rear. The sides of the bed were blended into the body to make it look more unified, and to keep costs down, the front end and interior were based on the Ford Model 40 five-window coupe. Power came from a V8 with shifting chores handled by a three-speed manual. Within a year, the new vehicle was ready, and production began in 1934. Lead designer Lewis Bandt christened it the coupe-utility.

Amazon looking to bring Kindle to your next car?

Maybe so. The online retailer and digital media monolith recently announced the Amazon Cloud Player, an application for Ford Sync that allows users to stream media from their Amazon Cloud account directly to a Ford vehicle. This foray into automotive technology got the minds at Gigaom.com thinking about what could be next for Amazon. As Kevin Fitchard writes, the logical step is to make audio versions of your Kindle library selections available in your car. As he points out, Amazon has already laid the groundwork for such a move.
Amazon pulled the sheets back on Whispersync for Voice last year. The tech pairs ebooks with an Audible book for a small extra fee, allowing users to either read along with a narrator or switch between audio and text versions on command. Fitchard says it wouldn't be some great leap to apply the same principles to a car, where voice recognition software would allow users to pause or select chapters without ever taking their eyes off of the road.
It all sounds just fine to us, but Amazon hasn't said a thing about such a move. Still, we wouldn't be surprised to see the company come down this road in the near future just the same.

Aluminum lightweighting does, in fact, save fuel

When the best-selling US truck sheds the equivalent weight of three football fullbacks by shifting to aluminum, folks start paying attention. Oak Ridge National Laboratory took a closer look at whether the reduced fuel consumption from a lighter aluminum body makes up for the fact that producing aluminum is far more energy intensive than steel. And the results of the study are pretty encouraging. In a nutshell, the energy needed to produce a vehicle's raw materials accounts for about 10 percent of a typical vehicle's carbon footprint during its total lifecycle, and that number is up from six percent because of advancements in fuel economy (fuel use is down to about 68 percent of total emissions from about 75 percent). Still, even with that higher material-extraction share, the fuel-efficiency gains from aluminum compared to steel will offset the additional vehicle-extraction energy in just 12,000 miles of driving, according to the study. That means that, from an environmental standpoint, aluminum vehicles are playing with the house's money after just one year on the road. Aluminum-sheet construction got topical real quickly earlier this year when Ford said the 2015 F-150 pickup truck would go to a 93-percent aluminum body construction. In addition to aluminum being less corrosive than steel, that change caused the F-150 to shed 700 pounds from its curb weight. And it looks like the Explorer and Expedition SUVs may go on an aluminum diet next. Take a look at SAE International's synopsis of the Oak Ridge Lab's study below. Life Cycle Energy and Environmental Assessment of Aluminum-Intensive Vehicle Design Advanced lightweight materials are increasingly being incorporated into new vehicle designs by automakers to enhance performance and assist in complying with increasing requirements of corporate average fuel economy standards. To assess the primary energy and carbon dioxide equivalent (CO2e) implications of vehicle designs utilizing these materials, this study examines the potential life cycle impacts of two lightweight material alternative vehicle designs, i.e., steel and aluminum of a typical passenger vehicle operated today in North America. LCA for three common alternative lightweight vehicle designs are evaluated: current production ("Baseline"), an advanced high strength steel and aluminum design ("LWSV"), and an aluminum-intensive design (AIV).