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Honda Civic Intercooler Pipes, 2016+

  1. Bring a Jacket: Mishimoto's Honda Civic 1.5L Turbo Performance Intercooler R&D Part 4 - Dyno Results

    Bring a Jacket: Mishimoto's Honda Civic 1.5L Turbo Performance Intercooler R&D Part 4 - Dyno Results

    There are two things that are guaranteed to get just about everyone at Mishi HQ away from their desk for at least a few minutes. The first is as soon as something new or unique rolls into one of the bays. It doesn't matter if it's a massive diesel truck, C6 Corvette, or one of the 10th Gen Civic Hatchback Sports. Nearly everyone wants to get a close look at what we've brought in for R&D. The second thing that gets people shuffling through the shop is when that new car makes its way to our Dynapack system. Our conspicuously red FK7 was no exception. Everyone here was curious about how the scrappy L15B7 performs with a little help from Mishimoto, and I'm going to venture to guess that you are too.

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  2. Civilized Pipelines: Intercooler Piping R&D, Part 3: The Fruit of our Labors

    Civilized Pipelines: Intercooler Piping R&D, Part 3: The Fruit of our Labors

    This is truly the age of forced induction. A clear indication of the trend came with the release of Honda's 10th generation Civic. After decades of abstaining from giving the intake manifold any extra assistance, we've been delivered a lifetime of naturally aspirated 4 and 6-cylinder engines, which is not necessarily a bad thing. The turbo-less times lead to some truly remarkable engines from the Japanese giant, but enthusiasts craving the extra boost and whine from a turbo or supercharger were left to their own devices.

    While this might not be a 10th Gen, the 8th Gen is a popular platform for aftermarket forced induction kits. Owner Ian Palmeri wanted to ensure that what was going on under the hood matched the outward appearance of his FG2.
    While this
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  3. Civilized Pipelines: Intercooler Piping R&D, Part 2: Fabrication Magic

    Civilized Pipelines: Intercooler Piping R&D, Part 2: Fabrication Magic

    Enlarging charge pipes for your turbocharged engine must be a detailed and accurate process. Think about it. It's not like companies make a charge pipe kit that is well-designed, well-documented, direct-fit and requires no modification to, let's say, a twin-turbocharged LS1 V8 engine fitting 1995-1998 Nissan 240SX's. You are going to need a fabricator for that, a very good one. It will be a one-off kit specifically for the car brought into the shop, not able to be mass produced due to the unique setup.

    You can't design good intercooler piping that fits a particular application for wide-scale production willy-nilly. Without the use of the proper tools, time, and R&D, the resulting product will be met with negative feedback from the surrounding automotive community. With the overall tight engine bay clearances of this 2016+ Honda Civic 1.5L Turbo, working around the space to design piping that will fit with a larger diameter than stock is a priority. Even slight miscalculations

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  4. Civilized Pipelines: Intercooler Piping R&D, Part 1: Design Plans

    Civilized Pipelines: Intercooler Piping R&D, Part 1: Design Plans

    Turbocharger compressors like denser air, which is why us car enthusiasts joke about how, although the winter is the motorsports off-season, it's peak "boost" season. Cars with forced induction love the colder, denser climates because by driving in colder weather, the turbocharger or supercharger gets fed a bit more air than in warmer weather. That's why you might feel a harder punch from the gas pedal in the middle of a freezing Chicago December compared to a Daytona Beach July.

    Since we don't all boost happily in the Siberian Tundra, the way to replicate this effect is by finding a way to supply more air to your method of forced induction. One way to do so is by making your intercooler piping or charge pipes larger. Larger pipes allow more airflow, which translates to more power. Our lead engineer for this entire intercooler project is very familiar with this idea, before creating larger pipes, we must first evaluate the stock pipes - hot side and cold side - to know exactly what we

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