FS CNC bored 63mm OEM throttle bodies!!
#1
Registered User
Thread Starter
CNC bored 63mm OEM throttle bodies, PnP Upper and Lower manifolds
Category: Engine - Intake/Fuel
Price: $485
Private or Vendor Listing: Private Listing
Part fits: 2010+ G37 Coupe, 2010+ G37 Sedan, 2008-2009 G37 Coupe, 2008-2009 G37 Sedan
Location (State/Prov): OH
Item Condition: Used
Last edited by Black Betty; 03-20-2015 at 06:38 PM.
#4
Registered Member
iTrader: (10)
The assumption is that larger diameters and higher flows are desirable, but what is the real overall effect? Are there dyno graphs or other objective information available to gauge effectiveness of this mod?
Also, because this engine uses the throttles primarily for emissions purposes and idle speed control, doesn't the significantly increased internal diameter cause problems for the idle control system? Do you need an UPREV tune or similar in order for the car to idle correctly?
I'm interested in these throttle bodies... but I want to understand dynamic effects first.
Also, because this engine uses the throttles primarily for emissions purposes and idle speed control, doesn't the significantly increased internal diameter cause problems for the idle control system? Do you need an UPREV tune or similar in order for the car to idle correctly?
I'm interested in these throttle bodies... but I want to understand dynamic effects first.
#5
Registered User
Thread Starter
No you don't need everything. Like I said the TB's are now port matched to the manifold. You don't need a motor back exhaust or a full intake system to make something work. You get the most gains if you do but drop in filters or tests pipes work ok on their own.
#6
Synolimit,
This is a good project but have you run it yet? The reason I ask is because I did similar on the VK56 in the Titan by switching to the LS7 TB. It went from 70mm to 90mm. In the Titan community it's called the FT90 mod. This mod required immediate idle reset and an E-tune to turn off codes brought on by the increase in airflow. Just wondering if you've already run it because of this. The project you're doing with the manifold also follows along the lines of the completion of my project where we simply grafted the snout of an LS3 manifold to the Titan manifold . I noted significant gains with it. 6000lb+ 4 door 4x4 Titan with a 5 second 0-60. Of course that was with JWT cams, a stall , headers and launching in 4hi.
This is a good project but have you run it yet? The reason I ask is because I did similar on the VK56 in the Titan by switching to the LS7 TB. It went from 70mm to 90mm. In the Titan community it's called the FT90 mod. This mod required immediate idle reset and an E-tune to turn off codes brought on by the increase in airflow. Just wondering if you've already run it because of this. The project you're doing with the manifold also follows along the lines of the completion of my project where we simply grafted the snout of an LS3 manifold to the Titan manifold . I noted significant gains with it. 6000lb+ 4 door 4x4 Titan with a 5 second 0-60. Of course that was with JWT cams, a stall , headers and launching in 4hi.
#7
Registered User
Thread Starter
The assumption is that larger diameters and higher flows are desirable, but what is the real overall effect? Are there dyno graphs or other objective information available to gauge effectiveness of this mod?
Also, because this engine uses the throttles primarily for emissions purposes and idle speed control, doesn't the significantly increased internal diameter cause problems for the idle control system? Do you need an UPREV tune or similar in order for the car to idle correctly?
I'm interested in these throttle bodies... but I want to understand dynamic effects first.
Also, because this engine uses the throttles primarily for emissions purposes and idle speed control, doesn't the significantly increased internal diameter cause problems for the idle control system? Do you need an UPREV tune or similar in order for the car to idle correctly?
I'm interested in these throttle bodies... but I want to understand dynamic effects first.
I don't know how else to say the TB's run like stock. Like I said " reassembled to the point where the car will run like stock without having to adjust the idle screw or adjust the idle within the tune!!!" I don't know how else to explain it.
I'll have a dyno soon. Plus the sets I've sold so far will dyno also.
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#8
Registered Member
I ask because this is from the370z forums. If I remember correct you were selling a whole system, and you even dyno'ed it. I don't see the dyno graphs and your only selling the body's. I just wanted to ask why... I was thinking about it....
#9
Registered User
Thread Starter
i can but i need a new hand porter. this is just the TB's and over there too till i find one. im dynoing on the 8th but wont have a good before and after as im doing lots upgrades together. the other sets ive sold are doing to dyno so we'll have lots to see.
#11
Registered User
Thread Starter
Again though!! The most power will come from a ported TB, ported upper, ported lower, tune and possibly increasing the MAF housing size. The OEM and stillen MAF housing size is the same as the OEM TB at 2.35". With the MAF section now being the choke point in the system, I think increasing it will be better.
Hence my new MAF sections going from 2.5" OD pipe to 2.75" OD pipe!!!!!
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conkus805 (07-30-2014)
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Synolimit (07-30-2014)
#14
Registered User
Thread Starter
Aug 8th I dyno but will be at a new shop. I'll go back to the old shop and pay for a 3 run pull to show my "base" (CBE and custom intake), last dyno (new custom CBE and LTH), and newest (new custom cai, ported TB's, ported upper and lower and a pro tune). Its a dynojet so all 3 times should be on par with each other.