2000 Ford Escort Zx2, Needs Timing Belt (non Interference Engine!) on 2040-cars

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Ford recalls 650,000 trucks and SUVs for defective wipers

Ford announced earlier this month that it is recalling 652,996 F-Series pickups, Expeditions and Lincoln Navigators produced for the 2020 and 2021 model years to address an issue that may cause their windshield wipers to separate, reducing visibility and leading to potentially hazardous driving conditions.  According to the Blue Oval, one of its suppliers used worn tooling components that resulted in wiper arms being produced with splines that are not tall enough to fully engage the motor pivots they're mounted to, which can cause the connection to strip when the motors are turned on. This could result in the wiper arms not moving at all, or engaging only intermittently.  "Worn wiper arm spline tooling core inserts at the supplier resulted in insufficient spline tooth height, which can cause the arm attachment to strip when used with a certain wiper motors with higher torque," Ford said in its defect report to NHTSA. "Potential symptoms include erratic or slow wipe speed of the driver or passenger wiper arm. An improper functioning wiper arm may potentially result in reduced visibility in certain conditions, which could increase the risk of a crash." Ford says the vehicles were not produced in VIN order, so while not all of the nearly 653,000 vehicles have bad wiper arms, they're all suspect until proven safe. Ford will notify owners of the recall campaign starting in May.  Related video: This content is hosted by a third party. To view it, please update your privacy preferences. Manage Settings. Recalls Ford Lincoln Safety Truck SUV

2017 Ford F-150 Raptor desert testing heats up

In case there was any doubt, Ford is taking the development of the second-generation SVT Raptor very, very seriously. The Blue Oval recently completed over 1,000 miles of testing in the boiling heat of the American southwest. Apparently, that mileage was accrued over a 66-mile route designed to mimic the torturous terrain encountered by racers in the Baja 1,000 off-road race. The prototypes, which were built from a mix of existing and next-gen Raptor components, were tested with "fast sandy washes, deep-rutted silt beds, steep climbs in deep sand, and slow meticulous crawls through tight trenches." Ford claims the new truck managed to run the circuit 25-percent faster than the current F-150 SVT Raptor, averaging 50 miles per hour while going as fast as 100 mph in stretches. That said, Dearborn didn't release any dedicated times, so it's unclear just how quickly the 66-mile stage was completed. We do know that durability was a big part of the testing. Ford claims each lap was completed by what sounds like a pretty significant jump, with the trucks ascending a steep ramp onto a two-foot plateau and then completing a step-down to level ground. We have to take Ford at its word here, though. "Steep" can mean any number of things, and we've no idea just how fast the trucks were hitting the ramp or how much air they got. Hopefully, the jumps were aggressive enough to prevent future frame issues. Still, Ford boasting about how rough the Raptor's testing is can be taken as a positive sign for fans of the next-generation of SVT's rugged pickup. NEW F-150 RAPTOR WRAPS UP INITIAL DESERT DURABILITY TESTING DEARBORN, Mich., July 7, 2015 – The 2017 F-150 Raptor – Ford's toughest, smartest, most capable off-road truck ever – recently completed more than 1,000 miles of testing in the southwestern United States. Over 1,028 miles of desert trail designed to parallel the Baja race course in Mexico, the 66-mile route featured a wide range of surfaces including fast sandy washes, deep-rutted silt beds, steep climbs in deep sand, and slow meticulous crawls through tight trenches. The truck topped speeds of 100 mph in places, slowing to 10 mph in others, for an average speed of approximately 50 mph. The 2017 Raptor is 25 percent faster than the current truck based on lap times. At the end of each lap, the new Raptor completed a tabletop jump consisting of a steep ramp up to a two-foot plateau, then a step-off back to level ground.

Translogic 174: Ford envisions the future of parking

Translogic visits Georgia Tech for a glimpse at the future of parking. First, we demo the Ford remote parking program by driving a golf cart around campus from the comfort of an off-site lab; think of remote parking as a virtual valet. Then we see how Ford's "parking spotter" works, a crowd-sourced way of finding an open space. Along the way, Translogic host Jonathon Buckley chats with Ford's global director of vehicle electrification and infrastructure, who explains how these innovative parking concepts could help us get around more efficiently. Have an RSS feed? Click here to add Translogic. Follow Translogic on Twitter and Facebook. Click here to learn more about our host, Jonathon Buckley. VIDEO TRANSCRIPT Jonathon: You turn the wheel and the cart turns the wheel because we've got to remember that the carts 150 meters down that way. I should use yards because I'm not in Australia any more. Welcome to Translogic. I'm Jonathon Buckley. Every year in this country we spend over 70 million hours looking for parking. We think that's a pretty miserable way to spend that time but Ford Motor Company and Georgia Tech have taken this problem head on by developing a parking spotter experiment and some pretty cool remote driving functions to go with it. When it comes to remote vehicle repositioning, you guys have been so far using golf carts?Mike: That's right.Jonathon: What's the goal with this type of technology?Mike: As you probably know, car sharing is becoming one of the emerging trends in mobility. With that, any type of sharing program that we looked at around the world, one of the common challenges it has is that during the end of the day, or the nighttime hours, there's something that has to happen to get all the assets back to where they need to be for the next day. Cell phone technology and broadband technologies have advanced so far that we can remotely control a vehicle from anywhere it the world. For example, we could actually take this and create a virtual valet. You and your significant other pull up to, say, a restaurant. You could potentially get out of the vehicle and then the call center could take your vehicle and park it for you. You wouldn't need to do anything [00:02:00] else other than arrive at the restaurant.Jonathon: The whole thing's pretty intuitive. It works exactly as you imagine a golf cart would work. The only difference that there really is is there's just a little bit of latency that you have to account for.