2002 Ford Mustang Base Convertible 2-door 3.8l on 2040-cars

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2013-2017 Ford Explorer recalled over rear suspension issue, again

Ford is recalling about 375,000 Explorer SUV models built between 2013 and 2017 in North America to fix a potential defect in the rear suspension. In "North America states and provinces where corrosion is common," which we take to mean areas that experience harsh winters and heavily salted roads, "a fracture of the outboard section of the rear suspension toe link" is possible on affected vehicles. Ford says 350,000 of these models were sold in the United States and another 25,200 in Canada. This isn't the first time Explorers of this generation have been recalled for fractured toe links. Back in the summer of 2017, 1.2 million Explorer models were recalled over toe links that could fracture if subjected to "frequent full rear suspension articulation (jounce and rebound)." A little over a year earlier, 75,000 Explorers were recalled over, you guessed it, rear toe links that may not have been welded properly. It's not just Explorers that Ford has recalled over rear toe links. Earlier this year, the automaker issued a recall that covered nearly 230,000 Ford Flex, Taurus and Lincoln MKT models. All of these recalled vehicles ride on similar unibody underpinnings that Ford calls the D4 platform. We can't say whether these other D4-based vehicles will get another recall as the Explorer has. Ford says it is aware of as many as 13 crashes and six injuries attributable to the toe links covered under this most recent Explorer recall. Owners will need to visit their preferred dealership, which will "complete a torque inspection of the cross-axis ball joint and replace it as necessary," according to Ford. Related Video:

2015 Ford Mustang Convertible to recreate Empire State Building stunt

It would have been all too easy to miss the auto show debut of the 2015 Ford Mustang convertible. It was, after all, unveiled alongside its fixed-roof counterpart at the Detroit Auto Show this past January, lumping coupe and cabrio into one debut. But Ford is evidently still intent on making its new droptop stand out. The top of the Empire State Building ought to do the trick.
Automotive history buffs may recall that, 50 years ago, Ford unveiled its first Mustang convertible atop what was then the tallest building in the world, that Art Deco icon of the New York skyline. Half a century later, Ford is recreating the feat and bringing the new topless Mustang to the same observation deck on the building's 86th floor.
Getting it up there, of course, will be no easy task. While they'd usually airlift the vehicle onto the roof or lift it by crane, the spire protruding from atop the building makes approaching the narrow observation deck too dangerous, and no mobile crane can telescope the thousand-plus feet it would take to get the pony car up there.

Shelby GT350R offers first mass-produced carbon fiber wheels

In the world of race engineering, reducing total weight is good, but reducing unsprung weight is flippin' fantastic. That's the reason Ford is pushing the envelope in terms of technology for the Shelby GT350R's wheels. Joining the likes of Koenigsegg in the offering, Ford has teamed with Australian outfit Carbon Revolution to produce the CF rollers en masse for the first time. Destined for the hubs of the new Shelby GT350R, the new hoops weigh just 18 pounds each, versus the 33-lbs weight of a similar aluminum wheel. On top of slashing up to 60 pounds in unsprung weight, there's such a reduction in rotational inertia – 40 percent, versus aluminum wheels – that Ford actually has to recalibrate the magnetic ride control system and springs. Thanks to, we're guessing, scenes of crashed Formula One cars disintegrating and spewing shards of carbon fiber all over the track, Ford seems quite keen to do away with the idea that CF is strong, but brittle. The company conducted extensive shock testing, ramming a wheel into a curb at speed. According to the Blue Oval, the lightweight wheel allowed the suspension to respond so quickly that the impact was "greatly diminished," causing the tester to run the experiment again, thinking there'd been a mistake. After recording brake rotor temperatures of 900 degrees Celsius (over 1,650 degrees Fahrenheit, or well past the point that aluminum or magnesium would melt) during testing, Ford and Carbon Revolution actually redesigned the wheels to "a thermal standard more suitable for motorsports," by adding an "incredibly thin, nearly diamond-hard coating that reliably shields the resin from heat." The same process was used to protect engine turbine blades on the Space Shuttle. While the work by Ford and Carbon Revolution should make GT350R customers excited, the work being done here could have serious implications for performance cars in the future. That's the real takeaway here, and is something that should leave fans of all performance vehicles excited.