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2011-2014 (S-197)

  1. Stranger Danger - Baffled Oil Catch Can R&D, Part 3: Finishing Touches

    Stranger Danger - Baffled Oil Catch Can R&D, Part 3: Finishing Touches

    The prototype has been on our loaner GT for the past few months, working as it should and catching a nice amount of blow-by. The previous updates, covered how we used innovative tech to design and create the bracket, and the planned routing for the lines. Significant progress has been made since then, as the designs have taken a cleaner physical form.

    Side shot of the completed kit
    Side shot of the completed kit

    Our sample production kit arrived at our R&D headquarters and it couldn't have fit any better. Everything was spot on and the installation was easy. You can see in the above image that we've cleaned up the catch can lines with properly routed hoses. The line material is rubber based, retaining a clean, OEM look.

    To keep this

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  2. Stranger Danger - Baffled Oil Catch Can R&D, Part 2: A Canned 'Stang

    Stranger Danger - Baffled Oil Catch Can R&D, Part 2: A Canned 'Stang

    Our engineer has advanced engineering tools at his disposal. Arguably, one of the coolest in our facility's arsenal is our scanning device. This high-tech piece of equipment allows our engineer to scan anything in 3D space into a computer file. The file is then uploaded to a computer so the engineer can design whatever they want within the 3D space they scanned. The fine-tuned hands-on engineering element is still there, it's just done a lot faster and just as accurate with this machine.  We call this contraption the Faro Design ScanArm and we have a full, detailed writeup on how it works. Cool technology aside, let's get into the design of this catch can kit.

    The scan-arm at work!
    The scan-arm at work!

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  3. Stranger Danger - Baffled Oil Catch Can R&D, Part 1 - Design Plans

    Stranger Danger - Baffled Oil Catch Can R&D, Part 1 - Design Plans

    Our engineers at Mishimoto are no strangers to the dangers of oil blow by. We have well-documented evidence that this is still a common threat to most modern direct injected vehicles. For those of you that don't know, blow-by is a byproduct of compression and combustion. Blow-by is created when oil and fuel vapors push past the piston rings and into the crankcase during compression. To keep the crankcase depressurized from this oil and fuel, there needs to be some sort of venting. This is accomplished by routing this blow-by through the intake tract and right back into the cylinder to be burned during combustion.

    Even though this particular engine uses port injection, which sprays fuel directly onto the valves, the problem still lies within the venting process. By rerouting blow-by through the intake tract, there is a potential for accumulating carbon deposits on your valves in addition to a nice thin coating of oil along the inside walls of your intake (and turbo if applicable). The

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  4. 2011-2014 Ford Mustang GT Direct-Fit Oil Cooler Kit, Part 3: Prototype 2 Design and Testing

    2011-2014 Ford Mustang GT Direct-Fit Oil Cooler Kit, Part 3: Prototype 2 Design and Testing

    Interested in purchasing our Mustang oil cooler? Check out our product page for more information!

    Mishimoto Ford Mustang 5.0L Oil Cooler Kit

    With one round of successful development and data collection complete, our engineers set out to improve upon the first design. After gathering airflow data for different bumper locations, they decided to move the cooler to the lower bumper opening as opposed to the grille area. Instead of modifying the existing brackets, our team developed a new bracket that would suspend the cooler and attach directly to the bumper support. This new bracket not only brought the cooler to a better location, but it also provided a more rigid, robust mounting system for the large 25-row cooler. This also eliminated the need for four brackets; instead just one cross bar would be needed. Check out a few shots of the prototype!

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  5. 2011-2014 Ford Mustang GT Direct-Fit Oil Cooler Kit, Part 2: Initial Prototype Design and Testing

    2011-2014 Ford Mustang GT Direct-Fit Oil Cooler Kit, Part 2: Initial Prototype Design and Testing

    Interested in purchasing our Mustang oil cooler? Check out our product page for more information!

    Mishimoto Ford Mustang 5.0L Oil Cooler Kit

    With our test vehicle in the shop, our team set to work planning our attack on this Mustang. Our primary goal was to achieve significant temperature decreases. We got this beast in the air and inspected our challenges with the oil sandwich plate location. Our standard and thermostatic sandwich plates use either a ¾-16 or M20 sandwich plate adapter. This component secures the sandwich plate between the block and the oil filter.

    Oil sandwich plate exploded
    Oil sandwich plate exploded

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  6. 2011-2014 Ford Mustang GT Direct-Fit Oil Cooler Kit, Part 1: Introduction and Goals

    2011-2014 Ford Mustang GT Direct-Fit Oil Cooler Kit, Part 1: Introduction and Goals

    Interested in purchasing our Mustang oil cooler? Check out our product page for more information!

    Mishimoto Ford Mustang 5.0L Oil Cooler Kit

    There is so much to say about the Ford Mustang and its legendary history as a high-performance, tire-melting pony car. Ford has been constantly improving the chassis, engine, and body since the 1960s (minus a lapse in the mid-1970s " we forgive you, Ford), and the most recent vehicle is nothing short of fantastic. The Coyote 5.0L engine produces substantial power and is finding its way into a variety of vehicles as a great engine swap candidate. These days, it is refreshing to see something different than the ever-popular LS swap, not that I have anything against that. Ford has also constantly improved the chassis, creating a vehicle that will not only rip down the drag strip, but is also fairly capable through the corners. With the 2015 model on the way featuring

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