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  1. #1
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    Default General Question?

    Design or Build question i guess. Anyway, i want to try and get an idea of how to get less torque, and more HP?

    Say if one engine has 900 hp and 650 ft lbs, and another has 850 hp and 700 ft lbs.

    What could be done to alter those results?

    Cam, cylinder head flow, exhaust, carb?

    I know someone will ask, so all aluminum SLM Engines, no restrictions other than a 4 bbl and the usual rules.

    Thanks, Krom

    Just say no...

  2. #2
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    HP is a calculation of TQ * RPM / 5252 so it would seem RPM would be a key in making more HP.

    I am reading a Cam with a little more duration.

    Retarding the cam a little, and tighten up on the valve lash, but i am not sure how much impact this will have.

    It seems to be a contest between cylinder head flow, volumetric efficiency, and bore and stroke, but i am still studying...

    Just say no...

  3. #3
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    More duration, more lobe separation, installed slightly retarded. Crank the rpms up.
    Josh K.

  4. #4
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    Quote Originally Posted by Kromulous View Post
    HP is a calculation of TQ * RPM / 5252 so it would seem RPM would be a key in making more HP.

    I am reading a Cam with a little more duration.

    Retarding the cam a little, and tighten up on the valve lash, but i am not sure how much impact this will have.

    It seems to be a contest between cylinder head flow, volumetric efficiency, and bore and stroke, but i am still studying...
    ## deleted picture as it's too big and messes up thread##

    Here is prime example: blue cam has more torque in the lower RPM ranges but drops off sharper at the higher RPM, thus it doesn't create a lot of HP because the torque is dropping so bad after 5252 RPM.

    Short on time right now, but I will try to explain a few options and one you listed that will not really make a lot of difference and should look elsewhere on options of what to do.

    MY bad sorry about the large picture: https://st.hotrod.com/uploads/sites/...ne-224-cam.jpg <---direct link might be easier to read
    Last edited by billetbirdcage; 01-16-2019 at 04:19 PM.

  5. #5
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    So they 5252 number is an RPM? LOL i didnt know that.

    So if the torque number really starts to fall off after that RPM, it will impact negatively on the HP.

    That's very interesting, it seems a high torque number in the lower RPM range, say 500 to 1000 rpm lower, and falls off pretty hard has a stiff impact on HP.

    Just say no...

  6. #6
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    Because hp is a calculated number, based on the formula,

    Hp = tq times 5252 divided by rpm

    Hp and tq will always be the same at 5252 rpm.

    Bigger carb will make engine "lazy" on the bottom end.
    Last edited by 95shaw; 01-16-2019 at 06:41 AM.

  7. #7
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    Lazy on the bottom end, but more to end?

    Thats something i never really tinkered with, different Carbs, we have an older Stealth and just run it religiously, its a 1.42 venturi and a 1.75" base i believe, but need to check.

    We have a big Braswell but have never run it, its a 1.45 venturi.

    Just say no...

  8. #8
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    I guess help on top end will be if the carb is the restriction in the system.
    If the intake, or head is the restriction, you know.

    All will be a compromise. No free lunch.
    Last edited by 95shaw; 01-16-2019 at 10:19 AM.

  9. #9
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    The item I mentioned as not being overly viable is the carb change, least as how you have described.

    1. Obviously it's expensive to buy several carbs or just another one to try it.
    2. Using a smaller carb or restrictor to reduce power in the slick, is common now a days but you said lower torque and increase HP. Most of the time doing one of these things is going to kill power mostly on the top end when it's actually cutting off air to the engine. It will reduce power, but not really like you are saying you wanted as far as top end.
    3. Going larger can reduce torque down low and might add some on top, but it can/will/might make the car lazy at lower RPM's so you push on the gas a little harder to make it go, then as the RPM's climb it all of a sudden takes off and blows the tires off. Think 2 stroke engine or light switch engine.
    4. Again just going of what you said you where trying to do, I don't feel there is much gain and it will be expensive to just try it unless you have access or can borrow some carbs as so you don't incur cost purchasing some.
    5. If you have dyno sheets on the engine, see if there is a vacuum value on the engine at full throttle. Like .5" or 1.5" of vacuum at full throttle. If this is on the higher side, like over 1" then going to a bigger carb might gain some top end but obviously might cause drivability issues. Basically if the engine still has a fair amount of vacuum at full throttle, then the carb is sort of a restriction and on the small side.

    *Again not an engine expert but do have my own dyno but stopped doing anything with engines for a while now.

  10. #10
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    Maybe this might make things clearer on the torque/HP/RPM:

    Lets say you want 800HP at 8000 RPM, regardless of what the engine makes for peak torque or how the torque curve is shaped on the graph it has to make 525.2# at 8000RPM. To make 900HP at 8000 RPM it has to have 590.9# at that 8000RPM.

    Torque is always lower then HP over 5252 RPM and always the same at 5252 and higher under the 5252.

    So to make more HP you need the torque to stay higher (not drop as bad after torque peak) or move the torque curve up in RPM's.

    While impossible, if you have a engine that made 300# of torque and stayed at that 300# no matter what the RPM was then this would happen:

    5000 RPM = 285HP
    8000 RPM = 457
    12000 RPM = 685
    20000 RPM = 1142
    30000 RPM = 1713

    Hope that helps

  11. #11
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    Billet is dead on. Look at the dyno report on an indy car engine, it makes insane hp at 18000 rpm, but they never quote the torque numbers, because they are likely under 300 ft. pounds at that insane engine speed.

  12. #12
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    Were going to try that Braswell, with the 1.45 venturi's we already own it. We can also play with the lash a little, and just see how it feels. just maybe .004 / .006 either way.

    How about carb spacers, thicker, thinner etc?

    Just say no...

  13. #13
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    Quote Originally Posted by Kromulous View Post
    Were going to try that Braswell, with the 1.45 venturi's we already own it. We can also play with the lash a little, and just see how it feels. just maybe .004 / .006 either way.

    How about carb spacers, thicker, thinner etc?
    Lash: I would talk to the cam manufacturer, depending on the curve of the ramp during opening and closing so you have an idea how far is safe to go. This is mostly on loosing it to make the cam smaller and tighter will make that lobe act larger. Going too loose on lash can cause the valve to slam into the seat do to not using enough of the closing ramp and slow the valve down before it hits the seat.

    They can also tell you what the safe range is and roughly how much duration so many thousandths will make. It's common to adjust either intake or exhaust lash while dyno'ing to give you an idea if the engine likes more or less duration on that lobe so you have an idea on where to go with the cam if you want to get a new one. Typically most lobes will allow .004 to .006 looser and be safe and you can tighten them about to zero, but again caution doing so without talking to cam manufacture. Don't talk to the phone flunky's that answer general tech stuff, they will give you a generic answer will might be wrong and cause damage.

    Carb spacers are really engine specific as you can have one that picks up a ton with a 2" open and on another it kills some. But on a general statement or on average, a thicker spacer that adds more plenum volume will usually take away a little down low and add some on top but can add everywhere or take away everywhere also. A 4 hole or 4 hole tapered spacers will usually add low end or not lose it over the open spacer and still have some gain on top end. Again it varies so much it's hard to say but that is the more typical happenings.

    Cam install centerline: Again it varies, but typically retarding will remove bottom end and add top end. However you might be surprised at times it does very little. Example, I got a external belt drive so it was easy to adjust cam timing while I was dynoing my engine. Retarding the cam 4 degree's (thinking like what you want - remove low end and add top end for when track was slick) killed power almost everywhere. It was down 30 foot pound all the way threw the RPM and so down on power everywhere including the top end. However removing 3 degree's of ignition timing killed the same low end 30# of torque but the engine made about the same HP on top as the timing normal. It only killed the off corner RPM torque and HP and was within 8HP of it's normal power on top end. Again every engine is gonna be different but the ignition timing was a much better and easier way then the cam timing was on this engine.
    Last edited by billetbirdcage; 01-16-2019 at 08:07 PM.

  14. #14
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    Thanks for all the great info Billet and others, once i tear into it and rebuild it, were gonna dyno it again and then i will have a multitude of things to try and shape it. Maybe even another cam to try. Its a great engine for working stiffs like us, low budget team, but i think you should always try to do better with what you got.

    I think the intent will be to flatten the torque curve, and raise its peak a little, so that carrys over to the big end and makes a little better power. If i could trade 40 lbs at for 30hp at the top end that would be ideal.

    Just say no...

  15. #15
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    Sidebar question, i see all / most of the big boys run Fords, why is that?

    My only experience with Fords are really not racing related, but high performance engines. They always seemed to be softer on the low end, and pull for days on the top end. Which in retrospect thats kinds what were after.

    Just say no...

  16. #16
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    Quote Originally Posted by Kromulous View Post
    Sidebar question, i see all / most of the big boys run Fords, why is that?

    My only experience with Fords are really not racing related, but high performance engines. They always seemed to be softer on the low end, and pull for days on the top end. Which in retrospect thats kinds what were after.
    Opinions are gonna vary on this, but the major factor IMO is this:

    It's not really about the brand (ford, chevy, mopar, and etc) but the research put into one basic combo for a dirt late model. Roushe/Yates just happened to be the one that was willing to go all out and combine that with their existing engine experience it ended up being a ford. It could have just as easily been Hendricks or someone else with a different brand of engine.

    That being said, the RY45 is thoroughly tested and a ton of the expense is done for you if you just follow the parts they use 100%. I think the problems you see with the fords from other builders is because they start or just do their own cam design (trying to improve) and don't do the testing needed like the spintron testing. If you just use the Roushe/Yates parts (I do mean down to the tee or one small thing like valve locks, or anything with a slightly different weight or frequency) then it can beat up the valve train and cause a failure. Many aren't going to spend the money for this, I know I've had it done and it's not cheap and one change it needs to be done again.

    Again the failures with the fords whether it be bad parts here or there or other engine guys trying to improve it without doing all the steps is in my opinion more the later. Again not throwing any builders under the bus, but IMO at first there wasn't many failures besides the bad part deal that happened and it got worse lately as more and more builders started doing the fords and the previous builder having to many customers that wanted something better then what everyone else was getting thus started changing stuff. Just my opinion some based on fact and some based on assumptions, but then again what do I know I'm not an engine builder, lol.

    I can tell you the RY45 will run a lot more laps and turn more RPM safely then any of the other engines I've been around and look absolutely perfect when it comes apart for a freshening. I know guys running 30 to 50% more laps then they was able to on their other top named engines.
    Last edited by billetbirdcage; 01-16-2019 at 11:05 PM.

  17. #17
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    One of these days i am going to have the time and means to do this sort of thing, Dyno motors all day, build race cars etc. I cant wait !

    So the leading candidates for TQ falling off to soon to make good power, is the Cam, Carb and timing either valves or ignition.

    I heard it said once that an Engine should make 2* the flow numbers on the Intake runner at max lift, and if its set up properly (Cam Carb Timing) it should make 5% more. Its eery how close we are to that, its at 2 times the max lift flow, but not the 5% so i guessing something is off. We shall look on to it more.

    As for the Fords, they look stout on the track i will say that. Although Coronett seems to be making a bit of a surge with there 10* stuff lately.

    LOL another thing i thought of, Dyno testing on a roller, in car deal, how much parasitic loss can i count on? 10%?

    Just say no...

  18. #18
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    Torque falling off: Can be a number of things, typically a short stroke big bore doesn't do it as bad as a long stroke and smaller bore. This is why we have spread bore engines to allow larger bores then was possible with the std bore spacing of 4.4" on a STD SBC.

    1. Stroke/bore combo
    2. Cam small or wrong for desired RPM
    3. Head or intake system too small to feed that large of a CID engine
    4. Sub par ignition
    5 Sub par fuel system, this one might surprise you. I've ran engines on the dyno way back when we used the Holley mechanical pumps on the engine with alky. Motor just didn't make the power I thought it should so I used the dyno's electrical fuel pump system and the engine gained 30+ HP. It was running out of fuel with the mechanical and you couldn't here it. I was having issues with the fuel meter so I wasn't getting fuel numbers (this was back before the wide band O2 sensors was popular to get A/F readings) So I wasn't getting A/F readings and if I had I would have seen it but you couldn't here it at all on the dyno and sounded fine.


    Head CFM per HP possibility is actually more like 2.5HP per CFM flow, but that is with a high end engine as a general rule 2 to 2.35 is close for an average race engine potential. Way back in late 90's the weld tech 18 degree head flowed 344 and on a 358 guys made 760 to 780 which is in that 2.2 to 2.3 range. Also keep in mind Air flow isn't the end all, it's air speed and cross section and a number of other things. You can make more power with a head that flows less a lot of times, so be careful with flow numbers alone. If you need a read/info on that stuff look for Darin Moran articles or his posts on some forums.

    If you look at HP per cubic inch: again varies but the most elite of elite naturally aspirated barely makes 3HP per cubic inch and that's a drag pro stock engine. A cup engine has never gotten close to 3. A basic guide line is 2 per cube is pretty good and 2.5 per inch is dam good for a circle track type engine and likely a small CID and extreme RPM deal. Most of your large CID LM stuff is in the 2 to 2.2 range.

    Rear wheel dyno's vary a lot as well as engine dyno's, but you should see around 15% loss with a bert/brinn and a Q/C to the rear tires.

    Hope that helps!
    Last edited by billetbirdcage; 01-17-2019 at 10:52 PM.

  19. #19
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    Jack Cornett put ford on the map when it comes to dirt late models in the 90,s , along with bloomer.......

  20. #20
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    Krom, here is a couple of articles you may find interesting and worth a read.

    https://www.enginelabs.com/engine-te...-of-11000-rpm/

    This next one more shows some of the newer stuff being done on the elite type engines with cam core and lifter sizes, bore spacing and etc.

    https://www.enginelabs.com/engine-te...-12000-rpm-v8/

    Anyways figured you might like them.

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