Jump to content
SAU Community

Recommended Posts

HI All!! just though i would share with everyone my Car and what she made and mods! post what you have , i would like to see what others are running!

im from WA Bunbury

Got it dyno tuned yesterday (Monday)

Mods are

Garret High Flow GT3076R from Adelaide Turbo Service with Factory Rear and front housing

Nismo 740CC Inj

Exeedy Heavy Duty Clutch

Walbro Fuel Pump

Custom Stainless Intake with Cold air induction

Autobahn88 front mount intercooler

K&N Pod Filter

Spitfire coil packs

Iridium spark plugs gapped to .08

Full turbo back split dump HKS 3 inch Exhaust with hot dog and streight through rear (Milo Tin) :P

HDI Electronic Boost Controller with high and low settting

Haltech Platium Pro ECU

It was a very hot day yesterday! outside temp was around 32 Degrees, the dyno room was 38.5 so it was hot!!! so that would effect the tune a litte bit..

on 19psi i made 359.2 RWHP , took it for a drive and it was nice but didnt like it very much to much wheel spin, so wound it back to 17 PSI which was the sweet spot between good traction and no traction for Final Run and it pulled 337.3RWHP on 17PSI i was happy with that, i can wind it up have a little play if i want :P as it was tuned to 19PSI

on 10PSI LOW Setting i made 278RWHP

Thanks!!

post-108656-0-91349800-1384214963_thumb.jpg

Link to comment
https://www.sau.com.au/forums/topic/434872-dyno-run-r33-gts-t-1994/
Share on other sites

The dyno adjusts the power reading to suit the ambient temp. Unless their ambient temp sensor is out of wack/not there. Theres a crewman ute here that a dodgy workshop claimed was the most powerful in the country, but its easy to claim that when the ambient temp is 50-60 degrees c. Funny things happen when you put the probe near the exhaust.

Also next time you do plugs, bin the iridiums and go copper. They really work just as good and are a quarter of the price or less

Thanks for the info 89CAL, i have never actualy tried the copper plugs... there are so many talks about the 2 and whats best to run...

The tuner who tuned my car deserves a pat on the back , alot of people are all about numbers and never appreciate the actual tune the tuner has done.

90% of the tune is bedding them in, the last 10% is the horsepower runns making people happy when they see bigger numbers, sure i could of got bigger HP but that means running a more aggressive tune. which i didnt want. my car starts perfect everymorning, i work early starting at 4:30 and its super cold.. but She starts and goes like a standerd car!. but when i want the power is there running perfect mixtures so i know that it wont go bang!

my setup is perfect for street/track. the highflow starts to taper off higher in the higher speed, but would like to take it down a quater mile and see what it does!

Thanks for the info 89CAL, i have never actualy tried the copper plugs... there are so many talks about the 2 and whats best to run...

Copper plugs cost around $3 each, the iridium and platinum ones are what, $30-40 each? What harm is there in trying copper? The expensive plugs last longer, but for the price offset I don't think they're worth it. Copper ones arc better anyway, and are cheap enough to replace every 30,000km or whenever.

Copper plugs cost around $3 each, the iridium and platinum ones are what, $30-40 each? What harm is there in trying copper? The expensive plugs last longer, but for the price offset I don't think they're worth it. Copper ones arc better anyway, and are cheap enough to replace every 30,000km or whenever.

I would be lucky to travel 3000km per year, but I wouldnt wait 10 years to change. For $18/set, every 12 months works for me. :action-smiley-069:

Copper plugs cost around $3 each, the iridium and platinum ones are what, $30-40 each?

Last set of Iridiums I got from the US were $10 a plug each, delivered, and VQ engine LFR's are much less common.

When you are melting copper plugs from running massive cylinder pressure and high heat you may appreciate the Iridiums a little more. Coppers are for stock cars running rich shitty tunes imo, as they are cheaper to change when they foul. That's why tuners recommend them I think. I guess every engine design would be different too, my VQ has much better plug cooling than the RB, as the thread is twice as long.

I think if your melting coppers then you've got some other issues... Copper melts at 1085 c and aluminum melts at like 660ish maybe try using a different heat range copper. I know guys that have pushed past 400rwkw using coppers with no problems

You have used aluminium plugs?

You know the price of 8-10 heatrange racing plugs? Around $40 a plug last I checked, and they needed to be specially ordered in.

My NGK LFR7 Iridiums are handling everything i can throw at them, the last set of Denso iridium IKH22 7's melted in just 5000k's.

No but my head and pistons are aluminum and whilst they have a larger surface area and also have the luxury of a boundary layer I would say that if your making enough heat to melt coppers your making enough heat to damage your head and pistons. Det much?

Ahhh ok.... My engine has been pushing 30-40 psi on ethanol for 4+ years now, daily, Should I check the pistons again? They looked fine when I changed the head gasket last.

My block is alloy too, with a sleeve bore, should I be worried much?

So if your pushing 30-40 psi on ethanol in a vq what does that have to do with a rb using coppers on ulp on the street? I work on engines that only have 2 plugs no pistons and run 1800shp at 60,000 rpm using jet a1 but that has nothing todo with an rb using ulp on the street so what's the point in mentioning it? Coppers run fine in rb's at over 400 rwkw on ulp.

The point I already made was... Iridiums are simply better. They handle high heat conditions much longer than copper, and you don't need to change them out every 5000. For just double the price they would pay themselves off many times over.

Now you need to mention that bullshit about coppers making more power....

I never said coppers make more power. Spark is spark, as long as its sufficient to create full combustion it really doesn't matter. 1 electrode plugs to 1 million electrode plugs bugger all difference. Electricity will always take the path of least resistance. Coppers are cheap, they work fine at higher levels of power than 90% of people will see and if changing cheap plugs every 5000 kms is to hard then pay an exorbitant amount for fully sick plugs for your street car (we are talking about street cars here)

Yep, street cars. Mine is no 2 ton race car. lol.

I think all modern street cars run Iridium or Platinum these days for the cleaner burn and longer servicing times.

How many people would seriously want to change plugs more often than oil? Most of the servicing I carry out, the cars have done 10-15,000 between oil changes.

I change my oil every 5000 like most people I know. It's just part of regular maintenance. The op doesn't have a 2 ton race car so suggesting coppers isn't a problem and what modern cars come with iridiums standard?

I do oil change every 5000km, do plugs about every 20,000km. But I have left them longer at times and never had an issue with the coppers.

I'm sure the Iridiums are fine, and last longer. But I don't believe they last as long as they are advertised

My view is that coppers work just as well and are alot cheaper, so thats what I do. Not saying that they are the best thing out there, but they definently work for the power levels most of us are running. At the same time though, I can get to my plugs alot easier without the standard manifold and piping :)

Create an account or sign in to comment

You need to be a member in order to leave a comment

Create an account

Sign up for a new account in our community. It's easy!

Register a new account

Sign in

Already have an account? Sign in here.

Sign In Now


  • Similar Content

  • Latest Posts

    • Jdm DC2R is also nice for a FF car compared to the regular hatches of the time.
    • Gotta admit, I love the 20b Cosmo.
    • Now that the break-in period for both clutch and transmission is nearly over I'd like to give some tips before I forget about everything that happened, also for anyone searching up how to do this job in the future: You will need at least 6 ton jack stands at full extension. I would go as far as to say maybe consider 12 ton jack stands because the height of the transmission + the Harbor Freight hydraulic platform-style transmission jack was enough that it was an absolute PITA getting the transmission out from under the car and back in. The top edge of the bellhousing wants to contact the subframe and oil pan and if you're doing this on the floor forget about trying to lift this transmission off the ground and onto a transmission jack from under the car. Also do not try to use a scissor jack transmission lift. You have to rotate the damn thing in-place on the transmission jack which is hard enough with an adjustable platform and a transmission cradle that will mostly keep the transmission from rolling off the jack but on a scissor lift with a tiny non-adjustable platform? Forget it. Use penetrating oil on the driveshaft bolts. I highly recommend getting a thin 6 point combination (box end + open end) wrench for both the rear driveshaft and front driveshaft and a wrench extension. These bolts are on tight with very little space to work with and those two things together made a massive difference. Even a high torque impact wrench is just the wrong tool for the job here and didn't do what I needed it to do. If your starter bolts aren't seized in place for whatever reason you can in fact snake in a 3/8 inch ratchet + 6 point standard chrome socket up in there and "just" remove the bolts for the starter. Or at least I could. It is entirely by feel, you can barely fit it in, you can barely turn the stupid ratchet, but it is possible. Pull the front pipe/downpipe before you attempt to remove the transmission. In theory you don't have to, in practice just do it.  When pulling the transmission on the way out you don't have to undo all the bolts holding the rear driveshaft to the chassis like the center support bearing and the rear tunnel reinforcement bar but putting the transmission back in I highly recommend doing this because it will let you raise the transmission without constantly dealing with the driveshaft interfering in one way or another. I undid the bottom of the engine mount but I honestly don't know that it helped anything. If you do this make sure you put a towel on the back of the valve cover to keep the engine from smashing all the pipes on the firewall. Once the transmission has been pulled back far enough to clear the dowels you need to twist it in place clockwise if you're sitting behind the transmission. This will rotate the starter down towards the ground. The starter bump seems like it might clear if you twist the transmission the other way but it definitely won't. I have scraped the shit out of my transmission tunnel trying so learn from my mistake. You will need a center punch and an appropriate size drill bit and screw to pull the rear main seal. Then use vice grips and preferably a slide hammer attachment for those vice grips to yank the seal out. Do not let the drill or screw contact any part of the crank and clean the engine carefully after removing the seal to avoid getting metal fragments into the engine. I used a Slide Hammer and Bearing Puller Set, 5 Piece from Harbor Freight to pull the old pilot bearing. The "wet paper towel" trick sucked and just got dirty clutch water everywhere. Buy the tool or borrow it from a friend and save yourself the pain. It comes right out. Mine was very worn compared to the new one and it was starting to show cracks. Soak it in engine oil for a day in case yours has lost all of the oil to the plastic bag it comes in. You may be tempted to get the Nismo aftermarket pilot bearing but local mechanics have told me that they fail prematurely and if they do fail they do far more damage than a failed OEM pilot bushing. I mentioned this before but the Super Coppermix Twin clutch friction disks are in fact directional. The subtle coning of the fingers in both cases should be facing towards the center of the hub. So the coning on the rearmost disk closest to the pressure plate should go towards the engine, and the one closest to the flywheel should be flipped the other way. Otherwise when you torque down the pressure plate it will be warped and if you attempt to drive it like this it will make a very nasty grinding noise. Also, there is in fact an orientation to the washers for the pressure plate if you don't want to damage the anodizing. Rounded side of the washer faces the pressure plate. The flat side faces the bolt head. Pulling the transmission from the transfer case you need to be extremely careful with the shift cover plate. This part is discontinued. Try your best to avoid damaging the mating surfaces or breaking the pry points. I used a dead blow rubber hammer after removing the bolts to smack it sideways to slide it off the RTV the previous mechanic applied. I recommend using gasket dressing on the OEM paper gasket to try and keep the ATF from leaking out of that surface which seems to be a perpetual problem. Undoing the shifter rod end is an absolute PITA. Get a set of roll pin punches. Those are mandatory for this. Also I strongly, strongly recommend getting a palm nailer that will fit your roll pin punch. Also, put a clean (emphasis on clean) towel wrapped around the back end of the roll pin to keep it from shooting into the transfer case so you can spend a good hour or two with a magnet on a stick getting it out. Do not damage the shifter rod end either because those are discontinued as well. Do not use aftermarket flywheel bolts. Or if you do, make sure they are exactly the same dimensions as OEM before you go to install them. I have seen people mention that they got the wrong bolts and it meant having to do the job again. High torque impact wrench makes removal easy. I used some combination of a pry bar and flathead screwdriver to keep the flywheel from turning but consider just buying a proper flywheel lock instead. Just buy the OS Giken clutch alignment tool from RHDJapan. I hated the plastic alignment tool and you will never be confident this thing will work as intended. Don't forget to install the Nismo provided clutch fork boot. Otherwise it will make unearthly noises when you press the clutch pedal as it says on the little installation sheet in Japanese. Also, on both initial disassembly and assembly you must follow torque sequence for the pressure plate bolts. For some reason the Nismo directions tell you to put in the smaller 3 bolts last. I would not do this. Fully insert and thread those bolts to the end first, then tighten the other larger pressure plate bolts according to torque sequence. Then at the end you can also torque these 3 smaller bolts. Doing it the other way can cause these bolts to bind and the whole thing won't fit as it should. Hope this helps someone out there.
    • Every one has seemed to of have missed . . . . . . . The Mazda Cosmo . . . . . . what a MACHINE ! !
×
×
  • Create New...