hyd roller cam with chi 3v heads

Hey Greg

What's the displacement of your Pantera's engine?

351 bored .030

Well that cam seems to work well with both the 2v heads and 4v heads and it's in my range size. I want to stay in the 223 to 226 duration range and .600 lift range.

Oh, a couple other things: my exhaust is about as good as I can get with my car. It is 1 3/4 in. Long tube Headers into a 3 1/2 collector and 2 1/2 straight through mufflers. I may eventually go with 3 in. Exhaust and 3 in. Mufflers. So I think I have pretty good flowing heads, intake and exhaust. I would also like to keep the lobe seperation at around 112. The only other engine build I have seen dyno was a 347 chi 185cc boss. The cubic inch, heads and intake are similar. The cam was 223/227 and .630 lift on a 110 lobe seperation. The power was impressive at 517hp@6200rpm. But I don't know what it's like driving on the street and I don't really like the lift that high.

Greg

The advertised info for the Crane #529551 cam is:

Advertised Duration = 286°/294°
Duration at 0.050" = 224°/232°
Advertised (Theoretical) Valve Lift = 0.586”/0.609”
Lobe Separation Angle = 112°
Overlap based on advertised duration = 66°
Overlap at 0.050” = 4°

However, Crane rates the advertised duration based on 0.004" tappet lift. If it were based on 0.006" tappet lift, which is what many cam grinders use, the advertised duration would be approximately 276°/284°. Now the cam doesn't look so big does it. Those advertised duration numbers are more in keeping with the duration at 0.050 numbers. Overlap is actually about 56° rather than 66°, which is great.

I think this is a great cam. Two things need to be mentioned:

First: with 224° intake duration your Pantera's engine will tend to make peak horsepower at approximately 5500 rpm. If that's not a problem for you, its not a problem for me.

Second: Crane rates the "max lift" points of the camshaft at 107° intake, and 117° exhaust. Those are not the lobe centerlines. The lobes are asymmetric and therefore the max. lift points of the camshaft occur 4° before the centerlines. The camshaft's centerlines are actually 111° ATDC (intake) and 113° BTDC (exhaust).

To get the valves to "open and close" where I would like to see them, I would advance the camshaft timing by 2° ... i.e. intake centerline of 109° ATDC. That would place the "max lift" point of the intake valve at 105° ATDC.

Thank you George, I did notice that it was at .004 and I thought that was odd. But I didn't realize that the max lift points weren't on the center line. What would the effect be of moving the max lift points? How would that effect the cylinder pressure and performance?

Also George, do you have any way to estimate the power difference between a good 2v iron head what my heads would make? I know that may sound silly and maybe even impossible. I just know that one car with this cam in it has ported 2v heads, and a fantastic fuel injection system built on a webber 4x2 intake and a bundle of snakes exhaust. I don't think you could do any better except for better heads. It revs soo quick. It is in a gt40 replica. Another car I know is a 71 mustang with 2v heads and weiand X-cellerator intake with a 750 holley. His car runs great and revs quick also. They both are very happy with that cam, even though they are in completey different cars. My EM 3V heads are supposed to flow 285cfm @.500 and 290cfm@.600lift. Thanks George, sorry to ramble on. Greg

George, many 351-C cams use far different duration etc on the exhausts than the intake, including this Crane. I always thought it due to stock iron heads and their folded-up exhaust ports. If this is true, shouldn't aftermarket heads with so-called 'corrected' exhaust ports be able to use symmetric cam durations for intake & exhausts? Or do you think this is a matter of 'one-size-fits-all' with regard to cam grinders?

I ran that cam and it was very good! alote of PULL.

quote:

Originally posted by Bosswrench:

... shouldn't aftermarket heads with so-called 'corrected' exhaust ports be able to use symmetric cam durations for intake & exhausts? Or do you think this is a matter of 'one-size-fits-all' with regard to cam grinders ...

It’s not the performance of the exhaust port that defines the need for the exhaust lobe’s duration, the duration of the exhaust lobe is defined by the valve events. The opening and closing of the exhaust valve in a street engine is influenced by three factors: (1) the requisite to exhaust into a muffled exhaust system, (2) the requisite for high rpm performance extending to 6500 rpm or higher, AND (3) the requisite of satisfactory engine performance at low rpm.

All of the “important” exhaust action MUST occur during the first 100° to 110° of crankshaft rotation after the exhaust valve opens; any duration beyond that shouldn’t accomplish much if the exhaust gases have been properly scavenged from the cylinder by the time the piston begins moving upward during the exhaust stroke (this occurs at approximately 30° ABDC). It’s important to conceive that the “bulk” of exhaust gas scavenging occurs during the last half of the power stroke and during the piston’s dwell period at BDC! Properly scavenging the exhaust gases while the piston is moving downward during the power stroke requires opening the exhaust valve early enough that there is some pressure in the cylinder to overcome the exhaust system’s back pressure. If the pressure in the cylinder is too low, then the piston’s downward motion could draw exhaust gases from the exhaust system into the cylinder, which is just the opposite of what we want to achieve.

I have good luck with most applications getting 351C street engines to rev freely to 7000 rpm by opening the exhaust valve around 80° BBDC, these are engines equipped with headers and decent mufflers. But in most applications if the exhaust valve is opened just 5° later, around 75° BBDC, the engine will tend to lose steam at 6000 rpm or earlier.

Piston motion provides the energy during the overlap period that causes gases to flow in directions we don't want them to flow. There is a window however at top dead center in which piston motion virtually stops, it’s called the "dwell period". I've learned empirically that in regards to the 351C this window is about 60° wide, extending 30° on either side of TDC. So the exhaust valve should close by 30° ATDC in street applications where low rpm power and drivability are desired characteristics.

Opening the exhaust valve at 80° BBDC and closing it no later than 30° ATDC encompasses 290° duration, with an exhaust lobe centerline of 115° BTDC. That’s why the exhaust lobe tends to have about 285° to 290° advertised duration (measured at 0.006), which in the case of street cams is often more duration than the intake lobe. A 351C with 4V heads will tend to make peak BHP at 6000 rpm and doesn't need a long duration intake lobe. Small port heads and stroker engines will tend to make peak BHP at lower rpm, and will require a longer duration intake lobe in order to raise the rpm at which peak BHP occurs.

Thanks again for the input.
George, do you think the Crane cam will pull to 6000rpm? Or do you think I should go custom? I was reading about your custom cobra jet cam and wondered if a custom hydraulic roller version of your cam would be better? Something with a little more intake duration and lift around .605? To make it peak a little higher and take advantage of the head flow? I just want it to pull hard to 6000rpm. Thanks again

Greg I will reply, I am waiting to have time to reply. You are not asking yes or no questions, patience is needed.

Old, slow & inebriated is my new name ... replacing cowboy from hell

I appreciate any input from you guys and I'm not trying to rush you George. I have enjoyed reading many of your posts over the last 5 or more years about 351 clevelands. I'm just excited about finally getting this car done, it's been a ten year project.

quote:

Originally posted by greg's 66:

... I didn't realize that the max lift points weren't on the center line. What would the effect be of moving the max lift points? How would that effect the cylinder pressure and performance ...

The "max lift" points cannot be aligned with the camshaft centerline. The camshaft lobes are designed and ground asymmetric. They open faster than they close. These are desirable features.

Its is desirable to open both the intake and exhaust valves as early as possible. A piston descending on the intake stroke reaches maximum velocity at about 70° ATDC, yet the intake valve is not fully open until about 105° to 110° ATDC ... its about 35° to 40° behind the program. In fact the piston begins decelerating at about 110° ATDC, just 5° or less beyond maximum valve opening! The wider we can open the intake valves by 70° ATDC the better. Similarly the majority of exhaust gases MUST be expelled by the time the piston's dwell period at BDC is over (30° ABDC), yet the exhaust valve is not fully open until about 65° ABDC. Again it is about 35° behind the program. The more exhaust gases remaining in the cylinder after the dwell period, the harder the engine must work to push them out, this impacts the engine's power output. The wider we can open the exhaust valves by 30° ABDC the better.

It doesn't harm a valve to lift it off of its seat quickly, but setting it back down on its seat quickly can cause valve bounce and/or accelerated wear and damage. Here again, an asymmetric lobe which closes the valve more slowly is an advantage.

Cylinder pressure (aka dynamic compression) is impacted by the point at which the intake valve closes. Street engines generally close the intake valve earlier, around 70° ABDC, to avoid low rpm reversion. Advancing the camshaft, thus closing the intake valve earlier, would increase dynamic compression. Asymmetric lobes do not affect the timing of the seated valve events.

quote:

Originally posted by greg's 66:

... do you have any way to estimate the power difference between a good 2v iron head and what my heads would make? ... one car with this cam in it has ported 2v heads, and a fantastic fuel injection system built on a webber 4x2 intake and a bundle of snakes exhaust ... Another car ... 2v heads and weiand X-cellerator intake with a 750 holley ...

No, not really. "Knowingly" ported 2V heads are capable of supporting about 500 BHP with a single 4 barrel carburetor. That means they're flowing about 250 cfm at 0.400" lift. I've never messed with an engine equipped with the CHI 185cc heads. Those came along decades after my time. The CHI heads have higher intake ports than a 2V head or even a 4V head. So although the ports are small they should flow more air than a 2V head. The CHI heads should also have better combustion chambers which is very important but often overlooked by enthusiasts.

In your examples the iron 2V heads were combined with the better induction and exhaust systems, whereas the CHI heads were combined with more "run-of-the-mill" induction and exhaust systems. The iron heads were being utilized to their max, the CHI heads were not.

quote:

Originally posted by greg's 66:

... do you think the Crane cam will pull to 6000rpm? Or do you think I should go custom?

Yes, timed as I have suggested, and combined with your exhaust system and the 750 carb you plan on using, the Crane cam will allow your car's engine to pull to 6500 rpm. Of course the valve train must be up to the task. My only question is how high will the engine rev before those small port heads go into sonic choke. The heads may constitute the engine's rev limit, but I'm sure they'll allow the engine to rev to 6000 rpm. Besides that, changing cams won't improve the heads.

Thanks again George. I understand what you're saying about the valves being opened as far as possible when the piston is at moving at speed which is how we move the most air. That's what we're after. I'm glad to get to talk to someone who fully understands this. You know what my question is: is there a better lobe that can open the valve more at the right time? And stay within street parameters?

Greg, as you know many parameters influence the dynamics of your Engine. Here is a Tool that can help you keep track of some of them.

Screenshot

Woww, I was just in the middle of that discussion as I (try) to rebuild 351 C Stock(+) (3.5, 4.010 today!! 9.206) living in Germany (a still abundant place for US blocks/motors). Intent to go for flat top Ross one pocket (teams recommendation, but 4.030!!) and Trick Flow Heads PowerPort190 (still not bought).
I am building a STREET CAR for high speed (still) German Streets (limited by 15" Rim/tire options unfortunately). so 5th gear will be used...(smile)

- Like the option from George on the mentioned cam (so far was looking for the older recommendation on Crane 529541). and 5500rpm are good enough..(smile)

1) is this recommended cam Crane #529551 a good fit for Trick flow PowerPort190? and my usage pattern?
2) what will be roughly the dynamic compression ration? Static is app 10.25 per tool (4.03, 3.5, 0.40. 0.035, 62cc, 1 pocket +1.5), pump gas obviously

Bore issue:
- the Block is very good and could use only honing to 4.010
-Heads are open chamber Cobra Jet (ref the other thread from Larry & George..cheaper to replace than to overhaul incl all stuff)

are there any flat top round skirt pistons à la Ross to fit 4.010 bore? I could not find any ..

TX Team
Matt_G

Mat_G, if you enter all your numbers you currently have into the Spreadsheet then you just need to observe the timing of the Cam you choose and enter those values and you will be able to read the Dynamic Compression. I believe the recommendation is somewhere between 8 and 9. And not to exceed 9,5 on pump gas??

When I did my stroker Engine (see Spreadsheet) I had to have additional material shaved of the Deck to achieve the wanted Compression. The Engine puts out +500PS @ 5500RPM on the Dyno and have massive Torque that makes it very Street friendly as well

quote:

Originally posted by goodroc:
Mat_G, if you enter all your numbers you currently have into the Spreadsheet then you just need to observe the timing of the Cam you choose and enter those values and you will be able to read the Dynamic Compression. I believe the recommendation is somewhere between 8 and 9. And not to exceed 9,5 on pump gas??

When I did my stroker Engine (see Spreadsheet) I had to have additional material shaved of the Deck to achieve the wanted Compression. The Engine puts out +500PS @ 5500RPM on the Dyno and have massive Torque that makes it very Street friendly as well

Ok Tx Let me try the tool, def taking some time might come back for clarification

Mat_G

Hello, and thanks again George. And thanks everyone for your input. I have one more question. How much power gain is a good port job worth on a set of heads and intake like mine?

I'm not sure how it will match up to your heads but... I love this cam for my daily driver...

Comp p/n 32-541-8
FC 290RF- HR10

https://www.youtube.com/watch?v=nic5OQCFCus

I need valve seals/alum heads... I know....

quote:

Originally posted by greg's 66:

... is there a better lobe that can open the valve more at the right time? And stay within street parameters ...

Better in what way? More lift?

Based on my calculated figures for duration at 0.006 and my recommended mathematic intake centerline of 109° ATDC, the seated valve events for the Crane cam are thus:

EVO = 77° BBDC
IVO = 29° BTDC
Overlap = 56°
EVC = 27° ATDC
IVC = 67° ABDC

Overlap of 56° is great, and overlap occurs within the dwell period; great stuff. The exhaust valve opening at 77° BBDC seems a little late, but remember its based upon my "guess" of what the duration at 0.006 is ... it may open a bit sooner. However, in combination with the exhaust system you've described, I'm sure the engine will rev to 6500 rpm or more. This cam is "good enough", if peak BHP at 5500 rpm is good enough for you.

quote:

Originally posted by greg's 66:

... How much power gain is a good port job worth on a set of heads and intake like mine ...

I don't have experience with those heads, and I'm not sure which intake manifold the engine is equipped with. I'm guessing its the manifold that looks like the Edelbrock Air Gap manifold, i.e. a dual plane manifold?

Before I could comment I would need to see what the "transistion" from valve pocket to combustion chamber looks like. As is true for any cylinder head, you want a nice, smooth, well blended transition from the valve pocket to the throat, a "rounded" throat, a nice, smooth, well blended transition from the throat to the valve seat, and from the valve seat into the combustion chamber. Done right such work is worth at least 20 BHP with the iron 4V heads.

I would also like to measure the size of the "throat", i.e. the minimum cross sectional area just above the valve seat. The “throat” should have a cross-sectional area of about 2.3 square inches (i.e. 1.70 inches diameter) thus preventing limiting port velocity (sonic choke) from impacting the engine within its power band.

quote:

Originally posted by Mat_G:

... is the Crane cam #529551 a good fit for Trick flow PowerPort190 and my usage pattern ...

I like Crane's #529551 camshaft better than their smaller #529541 camshaft, especially for an engine with "small port" cylinder heads.

quote:

Originally posted by Mat_G:

... what will be roughly the dynamic compression ratio ...

I calculated the static compression ratio as 10.46:1,

Vs (swept volume: 4.010" bore x 3.50" stroke) = 724.6cc
Vc (clearance volume: 62cc combustion chambers, 8cc head gasket, 3.4cc deck clearance, 3cc piston dome, 0.2cc clearance between piston & cylinder wall) = 76.6cc

With the intake valve closing at 67° ABDC the dynamic compression ratio would be 8.19:1.

Wallace Racing Dynamic Compression Ratio Calculator

quote:

Originally posted by Mat_G:

... are there any flat top round skirt pistons à la Ross to fit 4.010 bore ...

Not off the shelf, they will have to be custom ordered. This is not impossible, or even difficult. Ross should be capable of making them for any size bore you want.

However, keep in mind that the Trick Flow heads have different (higher) dynamic compression limits than the iron factory heads. Please contact Trick Flow for guidance. Also keep in mind that North American gasoline rated at 91/92 octane is equivalent to European gasoline rated at 95 octane.

Hello and thank you all. Thank you George, I know you spent some time on this and I appreciate it. Looks like the cam for me. Greg

Team Tx for help and move my skills forward.
Will go with this Crane cam and Ross can deliver pistons for smaller bore i.e 4.02 etc. Can order via Summit.

Tx again

Matt