June 15, 2010
To help your tuning appointment go as smoothly as possible, and to help you avoid any unnecessary expense, please review our Pre-Tune checklist and make sure you have addressed as many of the items as possible. We are, of course, here to help, so if there is anything you come across that you are unsure of, or were not able to check prior to your appointment please let us know so we may double check it prior to tuning your car.
Tuning is not a problem solver in most cases. Aside from larger injectors and larger MAF housing diameters most components can be installed without a major adverse effect on drivability. If you are having drivability problems please bring it to our attention, so we can advise you as to whether a tune will fix your problem, or if further diagnostics need to be performed.
- If your motor and/or clutch are new, make sure they are properly broken in prior to putting your car on the dyno.
- Make sure you have a relatively fresh oil change, within approximately 1,000 miles
- Check oil level. Bring an extra quart with you in case we need to top off the level.
- If your car has over 50,000 miles replace your fuel filter.
- Make sure you have a clean air filter. If you use an oiled air filter, make sure the filter is not over oiled.
- Install a fresh set of spark plugs gapped to no more than .032” for boosted applications.
- Make sure you car is not leaking any fluids. If your car leaks fluids on the dyno, you will be charged a cleanup fee.
- Check for pre-turbo exhaust leaks, as this will affect turbo performance.
- Check that all intercooler piping connections are secure.
- Check vacuum/boost lines, make sure they are secure, as short as possible, and do not have any changes in diameter.
- Tires should be in good shape, no belts showing etc. There should be no more than a 4/32” difference in tread depth between drive wheels.
- Check tire pressures, to make sure there is no more than 2 psi difference between tires.
- For AWD and RWD vehicles, make sure the driveshaft and carrier bearings are ok.
- If your car has excessively low or large bumpers, spoilers, splitters, or under body panels that may interfere with loading your vehicle onto or securing your vehicle to the dyno please remove them.
- Please make sure the car is filled with the fuel for which you want your map built. Do not use any fuel additives unless you plan on using them all the time.
- If you would like a pump gas tune, but have used race gas recently, make sure you have run at least two tanks of pump gas through your vehicle as this will ensure most of the race gas will be out of the tank.
- If you would like a race gas tune we can recommend and supply the fuel. However, make sure to check your local race gas availability, as the tune will be fuel specific. If you are tuned on Power Mist TO-137, VP C-16 will not run properly in your vehicle, or visa versa.
- Make sure your suspension and brake combination are suitable for your wheel horsepower numbers.
During our preliminary check of your vehicle, if we find issues that need to be addressed we will bring it to your attention. At that time, you can decide to have us fix the issues, which would be subject to our hourly labor rate. If you do not want us to fix the problem areas, and would rather fix them yourself, we will have no choice but to reschedule your appointment. Of course the latter of those options is not ideal for you or for us, which is why we have developed this checklist as a guide to see if your car is ready for tuning.
Please feel free to contact us with questions.
Thanks,
The Verocious Team
June 4, 2010
Verocious uses Raw Performance motors in all the Subaru vehicles we service that require a new long or short block assembly.
The following is Raw’s recommended Initial Start Up and Engine Break-In Procedures for Subaru Motors.
Short Block/Long Block without New Camshaft Install -
First, go back and double-check all hose clamps, fittings, and fluid levels. Even if you think you did it, check it again. It is also much easier if you have a second person helping you at this point.
Disconnect the big black and big brown multi-pin wire harness connectors. On turbo models these are located right behind the stock battery mounting location. On stock non-turbo cars, these are located on top of the transmission bell housing behind the intake manifold.
Make sure the engine is full of new non-synthetic oil (see oil suggestions below) and that the oil filter is also full of oil and hand tightened to the engine.
Turn the key as if you are going to start the car. You want to engage the starter for 10-15 seconds then release. Repeat this 5 times.
Disconnect the negative side of the battery and push the break pedal. This will quickly reset any codes you have stored in the ECU from cranking the engine with those connectors unhooked.
Reconnect all connectors and the battery. You are now ready to start the engine for the first time.
It should start right up, but if it doesn’t - don’t panic and try to start it again. If after 5-6 seconds of cranking, the engine does not start, it’s not going to. You need to go back and check everything again with the wiring and fuel system.
Once the engine starts, you IMMEDIATELY need to look at the engine oil pressure warning light and your oil pressure gauge if you have one installed. If the oil pressure warning light does not go out right away, turn off the car and recheck the connection to the oil pressure sensor. It is located on the front of the engine block underneath the alternator (stock location). If connection is fine, restart the engine.
If again the oil pressure light does not go out after 5 seconds, turn off the car. You need to go back and recheck your work.
Once you have the engine started and you have oil pressure, you want to run it at idle for a short period of time then rev the engine to 1500 rpms for 5 minutes. Hold it steady at 1500, try not to vary the revs too much.
Keep an eye on both water temp and oil pressure light or gauge if one is installed. Water temp should climb slowly and rest at just below mid point on the stock gauge. The second person should be checking for any leaks or uncommon noises coming from the engine during this time.
After 5 minutes, if you have no leaks and everything seems fine, let the car idle for a couple minutes and then shut the car off and let it cool down for 15-20 minutes. After it has cooled some, recheck all fluid levels again and you are now ready to drive the car, following the engine break-in procedure.
If you are only changing out the short block, and all other parts remain as they were on your old engine, you need to only recheck your air/fuel ratios. If you have changed any other parts with the new engine like ported heads, cams, turbo, injectors, intake, exhaust, etc, you need to be making ecu adjustments (if possible) to insure proper break-in. If you cannot make any changes, you need to source someone who can.
Engine Break-In Procedures
The first 300 miles should be driven with NO BOOST AND NO MORE THAN 4500RPMs. You want to do as much city driving as possible (lots of stop and go driving). As you are coming to a stop or slowing down, you should be downshifting and letting the engine do some of the braking work. If you do accidentally see some boost, that’s ok but try not to use any boost if possible.
New forged piston engines will use some oil during run-in. You want to keep an eye on your fluid levels at all times during the break-in process. Again, you will typically use some oil during the break-in process.
New forged piston engines also make more noise than stock engines do, so do not be surprised to hear more sounds coming from your engine. The sounds should be light tapping noises and start to settle as engine temp builds. If at anytime you hear anything that sounds unusually loud or gets louder as revs increase, do not run the engine until you can deduct what the sound is.
After 300 miles, change the oil/filter. Take a look at your oil. It will look dirty and probably have a swirl effect to it. That is the moly that is contained in the assembly lube. You should not have any metal flakes, chunks, etc come out with the oil. If you do, contact us ASAP and do not restart the engine. If the oil smells like fuel, that is a good indication you are over-fueling the engine and you need to do some more tuning to correct this. If you want, you can cut apart the filter to inspect for metal in the oil.
Install new oil/filter and recheck all fluids again. Now you can start running some boost and revving the engine a little higher.
Next 1200-1500 miles can be driven with boost pressures up to 10-12psi. This is usually wastegate set pressures for most turbos and external wastegates unless otherwise altered. Try to keep boost at no more than 10-12psi.
For every 250 miles you drive, you can increase the engine revs by 250. So at 550 total new miles you can now rev the engine to 4750 rpms. You want to follow these building steps up to your desired/new engine limited redline. It is suggested you set the rev limit at 7000 rpms at first.
As with the first 300 miles, you want to keep aware of your air/fuel ratios and make adjustments as needed.
After a total of 1500-1700 new engine miles, you should change the oil/filter again and can now have the car dyno-tuned if desired. Do not exceed any limits set for the new engine like RPMs and boost. The blocks Raw offers do not have a hp limit assigned to them, they only have rpm and boost limits. You must stay within those rpm and boost limits at all times. Enjoy your new engine and thank you for your business!
Suggested Break-In Oils
We like Shell Rotella-T 15-40 weight for all break-in mileage. If you are in an extremely cool climate, you will want to consider a lighter weight of oil like 10-40 or 10-30.
You can continue to use the Shell Rotella-T oil after completion of break-in if you wish. If you do switch to full synthetic, be sure to run a quality product.
Spark Plugs
For all WRX/STI 2.0 liter heads, we suggest NGK BKR7E plugs. For all US STI and turbo 2.5 liter heads, we recommend you use either NGK-LFR6A-11 or standard Subaru part NGK-ILFR6B. Plug gaps should be set from .031”-.035”. Spark plugs should be new at time of engine install and checked at end of break-in procedure and replace if needed. Do not run used and/or fouled plugs.
February 5, 2010
We have wrapped many headers and other exhaust components in the shop and wanted to share with you what feel are some of the best practices and techniques we have learned through experience. If your not sure how much wrap you need for your project, we have a chart you can reference here.
For this installation we are wrapping a Subaru STI manifold and upipe with Heatshield’s Inferno Wrap.
Before you begin wrapping your header you may want to gather a few very basic tools to help make the job as easy as possible. I’d recommend grabbing the following:
1. a bucket
2. Safety Glasses, Dust Mask, & Gloves
3. Long Sleeves
4. Thermal Ties, Stainless Steel Wire, or Hose Clamps
5. Side Cutters and/or Wire Twisting Pliers
6. Sharp Heavy Duty Scissors or Tin Snips
Step 1:
Put on your safety gear and remove the wrap from the packaging and submerge it in water in a bucket. By soaking the wrap you will help minimize the amount of fiberglass fibers. Just as an FYI, Heatshield does not recommend soaking their “Colored Wraps” however, all of their other wrap products can be soaked.
You may need to loosen the spool of wrap in order to have it saturate thoroughly. Don’t worry if it comes unraveled, you will most likely find yourself unraveling it anyway to make installation easier. You’ll probably find the wrap needs to soak for 15-20 minutes to become thoroughly saturated.
Step 2:
While your wrap is soaking, grab the parts you are going to be working with as well as the remaining tools you need. At this point, we have found securing the parts to a workbench definitely helps to make the wrapping process easier and the end result cleaner looking in appearance. Securing the part will allow you some leverage to pull the wrap as tight as possible, without having to fight against a part that is moving around. You’ll have to decide what securing method will work best for you, in our shop we have holes drilled through a metal fab table so we can bolt the header flange directly to the table surface. Using a few c-clamps or vise clamps would probably get the job done also.
Step 3:
Once your part is secured, pull the wrap out of the water. You may choose to work with the wrap as one continuous strand, or if you have calculated how much wrap you will need for various sections now would be the time to cut the wrap into the lengths needed. One word of caution if you pre-cut your wrap. Always hedge on the side of caution so you don’t come up short. If you think you need 10 feet, you may want to cut yourself a 15 foot piece of wrap to work with so you have some “play” room.
Now that you are ready to begin, you’ll want to start the wrapping at the point of the part closest to the motor. We generally also choose the runner or primary that we think will be the most difficult to reach to start with. Our reason for this is as you begin the wrapping process, small spaces only get smaller, so by starting with the hardest to reach runner or area, you will save yourself and your fingers some frustration down the road.
Begin by folding the end of the wrap over on itself. This will help prevent the edge from fraying. Next, make your first wrap. Once you see how your first wrap is going to fit we suggest running a piece of wire through the middle of the wrap and securing it in position. Note that this single tie will not be enough to keep the wrap from spinning as you try and pull it snug, you will need to make a few additional wraps before you reach that point. By securing the wrap like this you are keeping the first wrap against the flange and also making sure the piece that is folded on itself stays put and doesn’t somehow come undone. (See photo below)
Step 4:
Continue wrapping the runner using a 1/4″ overlap with each pass, being sure to pull each wrap as tight as you can. Secure it with Thermal Ties, wire or hose clamps as you go. Once you have finished the first runner we recommend going back to finalize any securing it may need. We always pay extra attention to the ends, since if the wrap is going to work itself loose chances are that’s where it would start. Having the wrap secured every 4 inches or so will be more than sufficient.
Step 5:
Continue the same process for each additional runner/primary. If you reach a point where the runners are too close together to wrap individually you can wrap them together. Once you are finished wrapping the component, double check that you have the wrap adequately secured.
Step 6:
At this point we hang our pieces to dry overnight. If you are in a rush you can set a fan up in front of them to help expedite the drying process. Once the pieces are dry you can reinstall them on your vehicle.
Step 7:
After your wrapped parts are installed they will need to cure. Park your vehicle outside and let it idle for awhile. You’ll notice the wrapped components smoking, and you will smell the fiberglass. This is normal, and it will stop once the wrap is cured. Once the smoking seems to have subsided you can take your vehicle out for a ride. You may still see some smoke if you are stopped at a light, but after the wrap heat cycles a few times this will stop.
That’s about all there is to it. This is not a difficult job, so don’t be afraid to tackle it. The most important thing is patience. You want to make sure you take your time, and install the wrap as snug as possible.
July 24, 2009
After a new clutch has been installed, you should make sure you take the time to properly break it in. Whether you installed a factory replacement or an upgraded clutch, by taking the time to do a proper break in you will maximize its life span, and performance characteristics.
At Verocious, we recommend a 500-mile minimum break in period. During these first 500 miles you should try not to rev the engine above 4500 rpm’s. This will ensure that your clutch is heated up slowly. During the break in period do not perform any hard drag race style launches or put your vehicle on a dyno for baselines or for tuning. Also, do not boost the car (if applicable) above 12 psi.
In order for the clutch to be broken in properly you will need to use it as much as possible. Driving on the highway in top gear for 500 miles will not break in your new clutch. Ideally, the best place to break in your new clutch is driving around town, or on roads where there is stop and go traffic. These driving situations will allow the pressure plate, flywheel, and clutch to mate nicely because of the continued use.
Depending on your driving habits and routines you will need to adjust your break in time accordingly. For example, if you drive your car everyday to commute to work, and there is relatively little shifting involved, your new clutch may need longer than 500 miles to fully break in. Opposite of that, if you drive in heavy stop and go traffic everyday, your clutch will most likely be broken in after the 500 mile period.
June 1, 2009
When selecting a wastegate spring, one of the most important things to determine is the LEAST amount of boost you want to run. The reason for this is because a turbocharger cannot run less boost than the pressure rating of the wastegate spring. If you want to run more boost than the pressure rating of the wastegate spring, you can accomplish that with the use of a boost controller.
So how does all this translate into the real world? Well, if you have a setup where getting traction is difficult, you would want to switch to a wastegate spring with a lower pressure rating. The lower spring pressure rating will allow for lower boost levels in gears where traction is a problem, and with the use of a boost controller, you can then run higher boost pressures in the gears where traction is better thus improving the drivability of your vehicle.
Depending on the turbo and exhaust system design, a wastegate spring can sometimes make up to three times more boost than what the spring is rated for with the aid of a good conventional electronic boost controller. For example, if a boost controller is installed that can apply pressure to the top port of a wastegate, an 8psi spring can make 24psi or more, although we typically do not recommend running more than 2x’s the wastegate springs rating as this keeps the demand on the boost control device low.
March 16, 2009
We hear this question quite a bit from people who are new to the performance scene. The first step in answering this question is to step back and truly analyze yourself, your car, and how you intend to use it. Every car, like every driver has a personality, which means there may be aspects of your car you like, and aspects you don’t. Having a strong understanding of where you personally feel satisfied with your car and where you are disappointed will help direct you down your modification path.
For example, do you use your car as a daily driver and occasionally take a “spirited” drive? Do you plan to do some weekend auto crossing or road racing or make occasional trips to the drag strip? Do you want to learn or are you involved with drifting? Is this your second car, your toy, and you want it to be more purpose built, rather than well rounded in all areas? All of these things need to be considered before you head down the path of modifying your vehicle so that the decisions you make early on start to lay down a strong foundation for you to build off of.
One of the places we recommend starting, even when your goal is more power, is starting with the brakes and suspension first. A car that handles and stops great, but is a little down on power can be much more rewarding to drive than a powerful car that does not stop or handle well. For most makes there is a good shock and spring package that can give great performance without the cost or complexity of a coilover. This is a great option, especially if your car sees primarily street use, as coilovers are generally overkill for street applications.
In addition to shocks and springs, stiffer sway bars and a quality end links can do wonders for the handling characteristics of your car and they generally don’t effect ride quality much as they are normally only working when the car is turning. If your suspension upgrades drastically lower the ride height of your car, you may need a camber correction kit or a roll center correction kit. The reason for this is because when a car is lowered the original suspension geometry is lost. As the suspension moves up (or your car moves down depending how you look at it) negative camber is increased and the roll center changes. The kits mentioned above, along with a good alignment will bring everything back within spec.
Brake upgrades should match how much you are increasing the power of the car. If you don’t plan on increasing the power output of your car drastically, you can add a more sporting feel to your braking system by simply upgrading the rotors and pads. If you plan on increasing the power of your car significantly, you’ll probably want to consider upgrading the entire brake system - calipers, rotors, pads, and possibly braided lines.
Once you have a strong foundation, you’ll be ready to turn your attention to the performance aspect of you car. Modern day turbocharged cars normally only need to have the exhaust system upgraded and the ECU tuned to extract an additional 25%-30% more power safely. Contrary to popular belief, most factory intake systems are designed well enough that little power will be gained if it is upgraded, which is why we recommend starting with the exhaust first. Of course there are exceptions to every rule, so on some makes, changing the intake system will help make more power.
If you are looking to upgrade performance past what the stock turbocharger is capable of, there are more systems that you will need to look at upgrading. At this point an aftermarket intake or a larger MAF sensor may be needed, as well as larger fuel injectors, a higher capacity fuel pump, and possibly new fuel rails. In addition, a larger intercooler may be needed, and depending on your desired power levels don’t forget to consider if you need to upgrade the pistons, rods, bearings, cams, and opt for a better oil pump.
For handling and performance, we feel what we have outlined above is a good place to start. Of course there are a myriad of modifications you can do to go above and beyond what we have discussed. But for most people, these serve as strong foundation level mods to make, that will not go to waste as you get further and further into your build.
March 6, 2009
Headers: wrapped/coated vs. unwrapped/uncoated
Exhaust manifolds on turbocharged cars are used to channel potential energy to the turbocharger. Any energy that is lost to the manifold or ambient air is not getting to the turbo which means turbo performance will be reduced since the energy can not be used to spin the turbine wheel. This loss of energy means it will take the turbo longer to reach target boost.
Wrapping and coating manifolds is all geared to the same thing, to keep as much heat, or energy, in the exhaust system as possible. Exhaust wraps and coatings achieve this by acting as insulation between the hot manifold and the cool ambient air rushing around the manifold. By stabilizing the exhaust gas temperature reaching the turbo with the use of exhaust wrap or a coating, turbo performance will become more stable. Deciding whether to use exhaust wrap or a coating is ultimately up to the end user, but generally cast manifolds take better to coating than tubular manifolds, just as tubular manifolds and headers are easier to wrap than a cast manifolds since they have a more open design. One last note on wrapping or coating exhaust manifolds, be sure to check with the manufacturer of your manifold to see if wrapping or coating it will void the warranty as different manufacturers have different policies.
March 4, 2009
So how should you decide what size wastegate to run on your turbocharged vehicle? Well, let’s first look at how a wastegate works. For purposes of this discussion we will reference two very popular wastegate sizes, 38mm and 44mm.
The purpose of a wastegate is to vent exhaust gas pressure away from the exhaust wheel of the turbo in order to control shaft speed. The more exhaust gas the wastegate vents, the slower the turbine wheel will spin.
For a turbocharged car that sees primarily street use, most people think the smaller 38mm wastegate would work best, and although it is not a bad choice, ultimately the 44mm would work better for most street applications. A street car will not be running the turbocharger at its peak efficiency all the time. Because of this, boost will be kept on the lower end of the turbo’s efficiency range. Since the boost will remain generally low, a larger volume of exhaust gas will need to be vented prior to the turbine exhaust wheel. That is why the 44mm wastegate would be a better choice for this application than the 38mm. It can more efficiently vent excess pressure from the system with the same valve lift as the 38mm.
If you were sizing a wastegate for a race application, a smaller wastegate would generally be a more efficient choice. In race applications, boost pressures are higher, so a turbo is more likely to be operating in its peak efficiency range for longer periods of time. That means you would want to keep more exhaust pressure going through the turbo, which means you are venting less exhaust gas. In this instance the 38mm wastegate, since it is smaller, will vent less gas and keep more pressure in the system to spin the turbo.
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