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Konu: zj buji aralığı

  1. #1
    Üye platin75 - ait Kullanıcı Resmi (Avatar)
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    zj buji aralığı

    97 avrupa 5.2 zj tamir kitapçığında ve motor bölümünde yazan buji kodu RC12LC4 ve buji aralığıda 0.40 olarak belirtiliyor.sırf merakımdan gittim internetten sentil denilen subap ayarı için kullanılan ölçü aletinden aldım.orjinal diye geçen champion rc12lc4 bujisindende aldım .ölçtüm aralık 0.85 çıktı.
    şimdi,benmi bir yerde hata yaptım yoksa bu bujilerin aralıkları değişiyormu.nedir bu işin doğrusu ne yapmalıyız?

    sentil
    IMG_0695.jpg

    motor kaputunda yazan
    JPG.jpg

    buji
    IMG_0696.jpg

    olması gereken ölçü 0.40
    IMG_0699.jpg

    bujinin şuandaki mevcut ölçüsü 0.85
    IMG_0697.jpg
    gidemediğin yer senin değildir

  2. #2
    Üye GC2013 - ait Kullanıcı Resmi (Avatar)
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    Bujileri düşürmüş olsanız kapanır, bujilerin orjinal olduğundan veya kutu içinde doğru buji olduğundan emin misiniz? Görüntü şüphelendirdi beni


    In Vino Veritas in Aqua Sanitas
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  3. #3
    Üye platin75 - ait Kullanıcı Resmi (Avatar)
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    Maslak Sanayiden güvenilir bir firmadan aldım 8adet hepsi aynı aralıkta
    gidemediğin yer senin değildir

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    Bendekiler, karari siz verin, Kanadadan almistim.




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    jpgg.jpg

    SPARK PLUG GAP
    4.0L 6–Cyl. Engine: .89 mm (.035 in).
    5.2L V-8 Engines: 1.01 mm (.040 in).
    5.9L V-8 Engines: .89 mm (.035 in).

    motor.jpg

    aracın motor bölümünde yazan 040 in -inç'mi demek yoksa.çünkü 1 inç, 2.54 cm
    0.40 inç x 2.54 : 1.01 mm yapıyor.

    ozaman sentilden 1 mm seçip ona göre ayar yapacaz
    gidemediğin yer senin değildir

  6. #6
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    Mevcut buji konusuna buradan devam etmek ve bilgilendirici bir yazı paylaşmak istedim.


    Spark Plug Technology


    In the mid-1980s, spark plug manufacturers started making plugs with copper core center electrodes. Copper is an excellent conductor of heat and allows plugs to run hotter without causing preignition. This improves fouling resistance, ignition reliability and plug life. It also reduces the number of plugs needed to cover a range of engine applications because each plug has a broader "heat range."

    The biggest improvement in spark plug technology, though, came in 1985 when the first generation "long life" plugs with platinum or gold-palladium electrodes hit the market. Up to this point, electrode wear usually dictated when a set of plugs had to be replaced. With standard nickel alloy electrodes, the spark gap between the center and ground electrodes grows about .0002" to .0006" for every 1,000 miles of driving. After 35,000 miles of driving, the gap can grow as much as 0.015" or more.

    Every time a spark plug fires, the hot spark blasts a few molecules of metal off the electrodes. As the miles add up, the electrode gap widens and the center electrode becomes rounded and dull. This increases the firing voltage needed to jump the gap. Eventually the point is reached where the ignition system can't generate enough juice to jump the gap, causing the plug to misfire.

    With platinum, gold-palladium and other exotic metals (more on this in a minute), electrode wear is greatly reduced. Most platinum plugs can go up to 100,000 miles before they have to be replaced. The same is true for plugs that use other exotic metals such as iridium for their center electrode. Plugs with platinum on both electrodes ("double" platinum plugs) experience even less wear than plugs with only a single platinum or platinum-tipped electrode.

    Long-life spark plugs drastically reduce the need for maintenance while helping the engine maintain like-new performance and emissions. Not having to change the plugs so often is a real savings for the vehicle owner, but it's no guarantee the plugs will go the distance.

    Platinum & Iridium
    Long-life spark plugs by ACDelco, Autolite, Bosch, Champion, NGK and Split-Fire all have platinum or platinum-tipped electrodes. With a couple of exceptions, most of these plugs use a conventional electrode configuration with a small platinum plug welded to the tip of one or both electrodes. ACDelco also offers a platinum version of its "Rapidfire" plug that features a fluted center electrode for improved ignition reliability. Likewise, Split-Fire offers a platinum version of its split electrode plugs for motorists who want extended life as well as reduced misfiring.

    Bosch, who introduced the first platinum plug back in 1985, offers several different electrode configurations in their product line. Their standard platinum plug has a thin pure platinum center electrode with a single yttrium-alloy end electrode. Their Platinum+2 and Platinum+4 plugs, on the other hand, have a unique "surface gap" side electrode design with two side electrodes on the Platinum+2 plug and four on the Platinum+4 - a sort of good, better, best approach to platinum plug technology. Increasing the number of side electrodes gives the spark more paths to ground and reduces the risk of misfire, while extending plug life by spreading wear over more electrode surfaces.

    One important point to keep in mind with respect to Bosch Platinum+4 and Platinum+2 plugs is that these plugs are pre-gapped at the factory to a uniform 1.6 mm setting and should not be re-gapped to the specifications for a standard spark plug. It's very difficult to get even spacing with multiple electrodes so install them as is.

    NGK "Iridium IX" and Denso brand "Iridium Power" plugs use a different exotic metal for their center electrode: you guessed it, iridium. Alloyed with rhodium, the iridium electrode is six times harder and eight times stronger than platinum. Pure iridium also has a melting temperature that is almost 1,200° F higher than platinum, making it a very tough metal indeed. On late-model Toyota and Lexus applications, the OEM-recommended replacement interval for Denso iridium plugs is 120,000 miles.

    The iridium plugs also have a very thin (0.6 mm to 0.7 mm depending on the plug) center electrode. The end electrode has a "U-Groove" that improves ignition reliability and wear resistance. Denso says their design reduces the required firing voltage up to 5,000 volts compared to a standard spark plug.

    For performance applications, Denso has also developed Iridium Power plugs with a super narrow 0.4 mm center electrode. These plugs are engineered to improve ignition reliability under extreme driving conditions rather than longevity, so the recommended replacement interval for the iridium plugs with the super narrow 0.4 mm center electrodes is 30,000 miles.

    Here's another bit of trivia for the gray matter: Iridium is literally an out-of-this-world metal. Approximately 50 million years ago, according to the Denso website, a giant asteroid from outer space smashed into our planet near the Mexican town of Chicxulub in Yucatan. The impact created a firestorm and dust cloud that darkened the Earth for years, wiped out the dinosaurs and left us with a layer of iridium-rich deposits that is evenly spread across every continent (the "K/T boundary" layer).

    Electrode Magic
    Spark plug manufacturers tout the advantages of their unique electrode designs, but regardless of the design, the purpose is to make it as easy as possible for the plug to fire reliably. A spark jumps more easily from a sharp edge than a rounded blunt edge. So the more sharp edges it has to jump to, the better the odds of the plug firing under all types of driving conditions. The electrodes on some spark plugs are also designed to "unshroud" the spark so more of the spark will be exposed to the air/fuel mixture. This improves the propagation of the flame kernel once the fire is lit.

    One thing to keep in mind with respect to performance claims is that no spark plug creates horsepower out of thin air. A special electrode configuration can reduce misfiring and the voltage needed to fire the plugs. But the spark only ignites what is already in the combustion chamber. If there are any power gains to be had, they will be the result of reduced misfires and nothing else.

    New Plugs Getting Smaller
    Another trend in the ongoing evolution of spark plugs is that plugs are shrinking. The new Ford Triton engines use long-reach 10 mm plugs from Autolite, which are 4 mm skinnier than the 14 mm plugs you're used to seeing in most late-model engines. The threads on these plugs are also 1-3/8" above the end of the plug, so heat has a long ways to travel before it can be dissipated through the threads into the cylinder head. This requires a couple of tricks to manage heat. One is an unusual "U" shaped end electrode that wraps all the way over the end of the plug. Connecting both ends of the electrode to the plug shell creates two paths for heat to flow away from the tip. The end electrode is made of a special high temperature Inconel alloy. In the center of the "U" is a small platinum pad to reduce electrode wear when the plug fires. The center electrode is also platinum tipped and has a copper core to help pull heat away from the tip.

    Autolite is also marketing a new "Titanium" spark plug. It's actually a standard spark plug with platinum tipped electrodes, but with a special titanium coating on the shell that resists seizing to reduce the risk of thread damage when changing plugs in aluminum cylinder heads.

    Fouling Resistance
    One thing all types of spark plugs must do is resist fouling. The trick here is to keep the electrodes hot enough to burn off fouling deposits but not so hot that they cause preignition. To burn off carbon deposits, the center electrode needs to reach about 700° F quickly. But if it gets too hot (above -1,500° F), it may ignite the fuel before the spark occurs, causing preignition and detonation. For most plugs, the ideal operating temperature is around 1,200° F.

    The temperature of the electrodes is controlled by the length of the ceramic insulator that surrounds the center electrode and the design of the electrode itself. Ceramics do not conduct heat very well, so an insulator with a relatively long nose will conduct heat away from the electrode more slowly than one with a relatively short nose. The longer the path between the electrode and the surrounding plug shell, the slower the rate of cooling and the hotter the plug.

    A spark plug's "heat range" (heat rating), depends on the length of the ceramic insulator and the design of the center electrode. The heat range must be carefully matched to the engine application otherwise the plugs may experience fouling problems at idle or run too hot under load causing preignition and detonation. Most plugs today have a relatively broad heat range thanks to the copper core center electrode described earlier. This allows the plugs to reach a self-cleaning temperature quickly and also prevents them from overheating.








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    Misfire Mayhem
    The voltage required to produce a spark can range from as little as 5,000 volts to as much as 30,000 volts or higher. The actual firing voltage will vary depending on operating conditions such as engine load, rpm, temperature, compression and the richness or leanness of the air/fuel mixture. The wider the electrode gap and the greater the load on the engine, the more voltage it takes to fire the spark plugs. Likewise, the higher the resistance in the spark plugs and plug wires, the higher the required firing voltage.

    A cylinder may misfire if the spark never reaches the plug due to excessive resistance or breaks in the insulation in the plug wires, or a buildup of oxide, cracks or an excessively wide air gap inside a distributor cap. A weak coil or a faulty ignition module that doesn't give the coil enough time to fully charge between firings also can reduce the available firing voltage to the point where the spark may be too weak to jump the electrode gap. Of course, worn or dirty spark plugs also can make an engine hard to start, idle roughly, lack smoothness, waste fuel and pollute, too.

    The most common cause of ignition misfire at the spark plug is fouling. A buildup of fuel and oil residue or other contaminants on or around the plug's electrodes can short out the spark before it reaches the gap. Contaminants also can form a barrier that blocks the gap or requires more voltage to punch through than the ignition system can deliver. The contaminants come from fuel additives as well as oil that gets past the rings and valve guide seals. A high-mileage engine with worn rings, cylinders and/or valve guides will often have a plug fouling problem.

    On 1995 and newer vehicles with OBD II, ignition misfire will usually set a fault code and turn on the Check Engine light. Fuel that isn't burned causes a huge increase in hydrocarbon emissions and will usually cause a vehicle to fail an emissions test. Unburned fuel also can damage the catalytic converter by causing it to overheat. So if you find a cylinder-specific misfire code such as P0302 (indicating cylinder #2), check the spark plug, plug wire, coil (if it's a DIS or coil-on-plug system), fuel injector and compression to isolate the cause. On the other hand, if you find a random misfire code (P0300), the problem probably is not the ignition system. It's likely a lean fuel mixture caused by a vacuum leak or dirty injectors.

    Plug Service
    As a rule, replacement plugs should have the same or better service interval as the original plugs. Long-life platinum and iridium plugs cost a little more than standard spark plugs and are an excellent upgrade for engines that were not originally equipped with these types of plugs. So replace same with same or better - unless an engine that was originally equipped with long-life plugs has a plug fouling problem due to high oil consumption. In this case, it doesn't matter what type of plugs you install because they won't last as long as normal. If the customer can't afford to fix the oil burning problem, switching to a slightly hotter plug may help reduce fouling.

    For performance applications, switching to a slightly cooler plug can reduce the risk of pre-ignition and detonation at high rpm and loads.

    Choosing Racing Spark Plugs

    Selecting the proper race plug for your customer's engine can mean the difference between front of the pack and a DNF. When using this guide, understand that race plugs are usually of a much colder heat range rating than automotive plugs. Colder plugs must be used in engines with increased cylinder pressures, higher temperatures and greater BHP. Other factors such as fuel delivery (turbo, supercharged), fuel types and piston-to-head clearance will also affect proper plug selection.

    Step 1: Shell Design - The first step in choosing the proper race plug is determining the plug type that your cylinder head/piston will accept. Thread diameter and pitch, thread length and shell seat, as well as hex size are all factors that will define what shell type works best for your engine.

    Step 2: Electrode Design - The second decision is electrode design and configuration. Is it a fine wire center or standard electrode? Projected or non-projected? Full coverage 'J-Gap' or perhaps a cut-back or angled ground wire? A good rule of thumb is to attain as much projection into the cylinder as possible. But be aware of piston clearance that could prohibit projected designs from being used.

    Step 3: Heat Range - The third factor in choosing a race plug is heat range. Correct heat range is critical in maintaining peak performance throughout the duration of your race or event. Switching to a colder or hotter plug will not increase horsepower, but could affect engine performance. Choosing a plug that is too hot can result in preignition or detonation. A plug that is too cold could cause an engine to stumble, misfire or foul.

    The main factors to consider in selecting the proper heat range are: type of race, methanol, specific output, nitro-meth, compression ratio, nitrous oxide, horsepower, super or turbo charging and racing



    Spark Plug Replacement Tips


    Before you install any spark plug, compare the old and new plugs to make sure the replacement plugs have the same thread diameter, pitch (SAE or metric), thread length and seat configuration as the original plugs.

    On engines with aluminum heads, let the engine cool before you attempt to loosen and remove the plugs. This will reduce the risk of damaging the threads in the cylinder head.

    Always inspect the old plugs after they have been removed and note any conditions that would indicate a cylinder is running rich, lean or is burning oil.

    Plug wires should also be inspected - and replaced if the insulation is damaged, if resistance exceeds factory specifications or the boots are loose.

    Torque and Gap

    How much the plugs should be tightened depends on the size of the plugs and the type of plug seat. Spark plugs with gasket-style seats require more torque than those with taper seats. Always follow the vehicle manufacturer's torque recommendations, but as a general rule:

    14-mm plugs with a gasket-style seat should be tightened to 26 to 30 ft.-lbs. in cast iron heads, but only 18 to 22 ft.-lbs. in aluminum heads.

    18-mm plugs with gasket-style seats should be tightened to 32 to 38 ft.-lbs. in cast iron heads, but only 28 to 34 ft.-lbs. in aluminum heads.

    14-mm taper seat spark plugs should be tightened to 7 to 15 ft.-lbs. in both cast iron and aluminum.

    18-mm taper seat spark plugs should be tightened to 15 to 20 ft.-lbs. in both types of heads.

    As for setting the plug gap, always follow the vehicle manufacturer's recommendations - unless you are installing a set of Bosch's Platinum+4 spark plugs. These plugs are pre-gapped at the factory to a standard 1.6-mm gap. This is necessary to achieve maximum plug performance and longevity, so don't change the gap.

    The reason is that the multiple ground electrodes in the Bosch Platinum+4 and Platinum+2 series are made from a special, wear-resistant nickel alloy, enhanced by the addition of yttrium-alloy. Not only do these plugs utilize factory set "surface air gap" technology that doesn't need gapping prior to installation, the manufacturer also said that the special alloys resist erosion so the gap maintains its correct setting for the life of the plug.

    "Every time a spark plug fires, a tiny bit of metal is lost in the electrical discharge. Over time, this can degrade a plug's performance," said Otto Stefaner, general product manager, consumer products, for Bosch. "Multiple electrodes and precious metals minimize this degradation from metal transfer."

    Stefaner also explained other benefits to their pre-gapped design. "Surface air gap technology also increases the electrode gap for better ignition, without increasing the voltage requirement, enabling the production of a larger flame core in the combustion chamber. Tests show that the four-electrode, platinum-core plugs transfer more energy efficiently to the air/fuel mixture. And plugs with four ground electrodes have up to 33% better cold restart reliability than conventional plugs," he said.


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