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3900 V6 9.8 compression. Is it static or dynamic?

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  • #16
    Changing the ICL of a cam can effect dynamic CR, but not static. GM has never released an engine and publicized dynamic CR for it. The piston sticks .020 (at least) in the hole. I have measured that myself.

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    • #17
      Originally posted by gectek View Post
      Changing the ICL of a cam can effect dynamic CR, but not static. GM has never released an engine and publicized dynamic CR for it. The piston sticks .020 (at least) in the hole. I have measured that myself.
      We have not proven it and there is no rule that states GM has to state static compression ratio as opposed to at a specific VVT cam location/dynamic.

      Things that support the possibility the advertised compression could be inaccurate or deceptive on purpose are: Giving the impression that only the 3900 in an SUV came with a steel crank in literature a few years back, advertised 5.9" connecting rods and 3.31" stroke both of which have been inaccurate on my engine having been measured at 5.827" and 3.290" respectively. The last two are crucial inaccuracies because if you buy replacement parts based on GM's documented specs you would have serious problems come time to assemble everything as those numbers are not even close to advertised.

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      • #18
        They also said the 3.6 had forged pistons. Instead of telling us possibilities and theories, why don't you measure everything and give us a break down to the real compression. No one (repeat, no company) posts compression ratios as dynamic. No one.
        Ben
        60DegreeV6.com
        WOT-Tech.com

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        • #19
          Originally posted by SappySE107 View Post
          They also said the 3.6 had forged pistons. Instead of telling us possibilities and theories, why don't you measure everything and give us a break down to the real compression. No one (repeat, no company) posts compression ratios as dynamic. No one.
          I believe you, I'm just having a problem with believing GM. I'm questioning more the possiblity the static compression may not be what they say it is.
          So far with my measurements along with those the machine shop have come up with plus what you guys have provided:

          I found a better compression calc than the one I had been using and arrived at the following
          using:
          cylinder bore: 3.899 I measured
          gasket bore: 3.974 I measured
          gasket thickness: .051 WOT and Cometic
          rods: 5.827 I measured plus someone elses confirmation
          piston to deck: .030 I measured +/- a small variation ~.002
          stroke: 3.290 machinist
          piston cc: 18 forum members
          head cc: 36.2 form members
          Intake valve close: 30 deg atdc forum members



          Static = 10.116: 1
          Dynamic = 9.105:1 here the calc states to add 15 to int close angle. With my cam fully retarded it read 7.694:1 with an value of ~70 used, 42.3 + 15 + 12.7

          Fully advanced: 37.3 value for intake, (with adjusted specs for 9.80:1 static), 8.939:1 dynamic. Fuel economy was excellent with the cam advanced.

          The power loss when comparing the fully retarded cam run against the fully advanced run using the GTech accelerometer supports the trend as the more the cam was retarded the more the compression droped.

          My setup should turn out to be: static 12.275:1 and dynamic 10.272:1
          Based on an exact 9.8:1 compression ratio my mods will yield: 11.781:1 static and 9.905:1 dynamic
          My pistons will be notched bringing the 9 cc volume up to at least 11 dropping my static compression down to at least 11.5:1 where I want it.
          Last edited by Guest; 09-24-2010, 02:16 PM.

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          • #20
            stock gasket is .070" thick.
            Ben
            60DegreeV6.com
            WOT-Tech.com

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            • #21
              Originally posted by SappySE107 View Post
              stock gasket is .070" thick.
              The used gasket I just measured is about .065" and that's measuring over the embossed sealing material that I know would be compressed more than what my caliper is doing if the heads were torqued down. .070 would mean the quench area is even worse than thought, eventhough GM refers to the cylinder heads now as "mist quench".

              The machinist appears to have been mistaken, I received another call today stating that the stroke is going to be pretty much what I wanted. You don't suddenly recover .020" stroke out of thin air. What's nice about it is that they're actually talking to me about what's going on, something the last guy didn't do.

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              • #22
                Not the first time GM lied. Look at the 3.4/3400, it's advertised as a 207, and is a 204 (much closer to 3.3l than 3.4).

                To measure compressed thickness, you have to insert a feeler guage and/or shims between the head and block after clamping.

                Having the piston nearly contact the head at peak power revolutions is ideal, period, GM would not have done otherwise since it has been prooven time and time again. I can't wait to see the LLT in a wrecker exchange and get to dissect it.
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                • #23
                  mmmm...... direct injection.....
                  1995 Monte Carlo LS 3100, 4T60E...for now, future plans include driving it until the wheels fall off!
                  Latest nAst1 files here!
                  Need a wiring diagram for any GM car or truck from 82-06(and 07-08 cars)? PM me!

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                  • #24
                    Originally posted by ForcedFirebird View Post
                    Having the piston nearly contact the head at peak power revolutions is ideal, period, GM would not have done otherwise since it has been prooven time and time again.
                    You would think, but in addition to the head gasket thickness the piston sits about .030 in the hole so quench is definately greater than .070. Despite that fact combustion chamber design comes into play as well so the extra quench area is probably negated. The Ford 4.6L runs a quench area greater than .100. smaller diameter cylinder bores also add a positive contribution to the quench effect I have read, so that may allow greater quench without loss of effect when compared to an engine with the same quench but larger bore.

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                    • #25
                      Originally posted by Joseph Upson View Post
                      The used gasket I just measured is about .065" and that's measuring over the embossed sealing material that I know would be compressed more than what my caliper is doing if the heads were torqued down. .070 would mean the quench area is even worse than thought, eventhough GM refers to the cylinder heads now as "mist quench".

                      The machinist appears to have been mistaken, I received another call today stating that the stroke is going to be pretty much what I wanted. You don't suddenly recover .020" stroke out of thin air. What's nice about it is that they're actually talking to me about what's going on, something the last guy didn't do.
                      Had me worried for a minute. I was shooting for a .050-.045 quench based off of an advertised stroke and .070 head-gasket. (+/- .005 to account for any rod-stretch and expansion at high rpm)

                      .090 quench?, That would have been "knock city" under heavy boost on a hot day (I wont be running any less that 14.6 PSI to prevent compressor surge)

                      Glad you had that verified.
                      Took a break from working on the car. Got some better tools, got a better shop, got a better job... Its time to burn metal!

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                      • #26
                        Man, we just rebuilt a 4.6 that got water in the cyl and bent 2 rods. Had I remembered this thread, I would have measure the deck height, but I will have to say it didn't appear to be out of the norm. I would like to further investigate this large quench you talk about.
                        Last edited by ForcedFirebird; 09-26-2010, 04:18 AM.
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                        • #27
                          Originally posted by Driver_10 View Post
                          Had me worried for a minute. I was shooting for a .050-.045 quench based off of an advertised stroke and .070 head-gasket. (+/- .005 to account for any rod-stretch and expansion at high rpm)

                          .090 quench?, That would have been "knock city" under heavy boost on a hot day (I wont be running any less that 14.6 PSI to prevent compressor surge)

                          Glad you had that verified.
                          Not at all, approximately .090 quench area is stock for the 3900 and from my experience it is very resistant to detonation. You may not recall but I ran 7 psi on the stock motor before intercooling with 212 degree inlet temps datalogged and mid grade fuel with poor tune to boot. It's terrible by early iron head stats but GM has done their homework with the head design as it doesn't seem to be a problem at all. My concern was with making it even greater by using the first offset ground crank which would have taken it to ~120.

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                          • #28
                            Originally posted by Joseph Upson View Post
                            Not at all, approximately .090 quench area is stock for the 3900 and from my experience it is very resistant to detonation. You may not recall but I ran 7 psi on the stock motor before intercooling with 212 degree inlet temps datalogged and mid grade fuel with poor tune to boot. It's terrible by early iron head stats but GM has done their homework with the head design as it doesn't seem to be a problem at all. My concern was with making it even greater by using the first offset ground crank which would have taken it to ~120.
                            Wow..No shit, huh


                            If you got away with 7lbs, "non-intercooled" on mid-grade and a .090 quench, then I should have no issue tuning on mid-grade with 14lbs and a .050 quench. Hell, maybe even regular unleaded and meth would be good.
                            Took a break from working on the car. Got some better tools, got a better shop, got a better job... Its time to burn metal!

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                            • #29
                              Originally posted by Driver_10 View Post
                              Wow..No shit, huh


                              If you got away with 7lbs, "non-intercooled" on mid-grade and a .090 quench, then I should have no issue tuning on mid-grade with 14lbs and a .050 quench. Hell, maybe even regular unleaded and meth would be good.
                              Here's the link to the datalog on the forum. Although I didn't select knock counts for display at the time, I reviewed all of the runs and there was never a problem with detonation under boost. The inlet temps are in degrees celsius. I ran the car with the cam fully advanced and fully retarded which affected the dynamic compression making it higher once I advanced the cam but I never had a problem with it under boost and I'm sure I could have turned it up higher without a problem. I had one log at 7 psi and a BLM or INT at 165 showing it was leaning out and still no detonation occured. I recorded ~1 deg timing retard after letting off the throttle and hitting a low rpm area where the idle range timing was too aggressive (above stock TGP timing).

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                              • #30
                                Here is a good Hot Rod article on compression dated 2009. It also gives a lot of insight on why the 3900 quench area is relatively high compared to what we should expect.

                                Excerpt pg 3:

                                " If quench is so good at suppressing detonation and allowing the use of higher CRs for more power and better mileage, why doesn't the factory make it tight to start with? In a nutshell the answer is emissions. Tight quench over too large an area (such as seen in a typical small-block Chevy or Ford of the pre-1997 era) causes unburned hydrocarbon emissions to go up. However, quench is a key element toward fast burn and this in itself can lead to the successful use of a higher CR just as we see with the LS1/6 family of engines. For modern engines, the trend has been to use a more open chamber with less quench area, but to make the quench action more active by tightening it up as necessary. Although high compression benefits fuel mileage, it can bring about a dramatic increase in oxides of nitrogen, which is the primary cause of smog. Offsetting this is the fact that because a fast-burn chamber requires less ignition advance, the amount of cylinder pressure and temperature generated to develop a certain amount of output is less, so in that respect oxides of nitrogen are lowered."

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