But after 400ish with the high compression ratio wont you have to run some sort of race gas to really prevent detonation?
Direct injection allows you to run a much higher c/r.
But after 400ish with the high compression ratio wont you have to run some sort of race gas to really prevent detonation?
by the time the V6EB mustang is released. there will be already a DOHC 5.0 cammer engine in the GTs now thats some options for the pony right there. somewhere in 2011 im pretty sure
You think those little GT12's will be able to support 500hp? They are already pushing 12#. I would guess that you'd need somewhere in the 18-20# range to see 500.
I own a 07 Mazdaspeed 3... it too is direct injection with a little K04 turbo. Stock boost is 10 psi in first/second... then you get 15.7 psi in each other gear. Because its FWD, the power was limited there. After tuning, 20 psi in each gear and fully bolted, 33x hp ratio.
What we have found after 3 yrs is... direct injection has a flaw. At least how Ford/Mazda set it up. There isnt enough fuel getting dumped into the engine. The car runs on a factory wideband sensor and at all costs, will try to meet the target AFR found in the ECU tables.
You can slap on a 2871r, 3071r, 3076r or even a GT35R turbo and still not make more then 360 hp. If the engine isnt built, kaboom since the rods cant take more then 350 #'s of torque. They will explode right through the block.
The conclusion we have come up with is injector timing width. Its not modifiable whatsoever in the Mazda ECU, which is forcing us to go with a secondary fuel system to see if the car will make additional power. As it sits right now, meth injection proves to add more power to this car even stock.
What i will find interesting is, seeing the tables available from the Ford ECUs on both the SHO and Flex with these Ecoboost engines. For whatever reason, Mazda made these DI engines very difficult to open up and make power out of them. It would be very sad to see Ford go down the same route.
One final note.. direct injection needs methanol injection to keep the valves clean. If you guys see the destruction of deposits and gunk on our engines in less then 25K, you will freak out. Im in the market for a family vehicle and i have been eyeballing the Ecoboost Flex.. But my experience with the Mazda thus far, has left a very bad taste in my mouth. Im hoping the domestic side of the DI Ford engines, are different. I will be keeping my eye out on all of the related forums to see whats going on.
Yeah, I've heard that the DI system is a "bottleneck" in the Mazda DI/Turbo engines. According to AutoBlog, Ford is using a new DI system for the EcoBoost engines, so it will be interesting to see what happens with these. Hopefully someone at Ford saw the problems with the Mazda versions being limited by the "tunability" of their DI system and made sure the Ford version will be more tuner friendly.
Ford hardly even bothers to try and secure their ECUs from tuning, lol.
No way it would hold that much boost to redline.. Those are tiny ass turbos, I remember my VR4 with TD04 9bs it would only hold 15psi max to redline.
I'm thinking that car could gain 40-50hp by adding a couple lbs of boost and freeing up some restrictions. I wouldn't buy a SHO to mod it, it's too heavy and the AWD will just limit what it's capable of even if you added larger turbos and the works.
All this talk about turbos is fine and all but the rods the motor uses will tell all combined with head flow. Does anyone know what type of rods are in it? I mention this because of the difference between Terminators and Lightnings. Termies had Manley rods and the Lightnings had forged, powdered I beams that were not as good. The truly great engines in recent history could hold great power(03/04 Cobra, 90-96 300ZX, etc..) because of the strength of their stock blocks. If you have to build the block to make big power(North of 450w/hp) then we need good rods. Next the heads tell all for big power potential also. The verdict is out with me until I know what rods are in that motor.
Jaimie