Hamilton Cams
ignorant
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- Jun 28, 2007
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Feel free to discuss ramp rates and all ramp rate related information.
Camshaft Ramp rates
- Thread starter Hamilton Cams
- Start date
fnschlaud4620
New member
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- Nov 13, 2007
- Messages
- 356
Ok i'll bite, I was just reading the lobe post and Nicks post on the ramp rates got me calculating mine, here are my spec
intake exhaust
@.050 180 200
@.020 200 228
@.006 214 240
valve lift .442 .501
lash .008 .008
lobe sep 108
installed @ 100
Comparing the ramp rates of the Helix and mine
Intake
Helix .006 to .020 is 51.6
Helix .020 to .050 is 30
mine .006 to .020 is 14
mine .020 to .050 is 20
Exhaust
Helix .006 to .020 is 83.8
Helix .020 to .050 is 27.3
mine .006 to .020 is 12
mine .020 to .050 is 28
Will my cam live? The ramp rate seems to be faster but will it wear too much?
thanks
intake exhaust
@.050 180 200
@.020 200 228
@.006 214 240
valve lift .442 .501
lash .008 .008
lobe sep 108
installed @ 100
Comparing the ramp rates of the Helix and mine
Intake
Helix .006 to .020 is 51.6
Helix .020 to .050 is 30
mine .006 to .020 is 14
mine .020 to .050 is 20
Exhaust
Helix .006 to .020 is 83.8
Helix .020 to .050 is 27.3
mine .006 to .020 is 12
mine .020 to .050 is 28
Will my cam live? The ramp rate seems to be faster but will it wear too much?
thanks
mech2161
I have a secret.
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- Jan 15, 2007
- Messages
- 3,986
If? LOL Faster ramp rates also eat **** up when you have little room to work with. Some times you have to give a little to get a little and make it live.
Hamilton Cams
ignorant
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- Jun 28, 2007
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That is why we went with the wider lobes
Hamilton Cams
ignorant
- Joined
- Jun 28, 2007
- Messages
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The lobes width will not affect the ramp rate. No contradiction there. I think you have duration and width confused. If a hill is 2 miles high and has a 45 degree slope, it can have a face that is 2 miles wide or 100 miles wide. You can attack the mountain any where along the 100 miles and it still has a 45 degree incline. Ramp rate is not dependent on lobe width.
If you mean wider duration then yes, slow ramps can be associated with wider duration cams but not wider lobe width. Wider lobes let the oil between the lifter and the cam lobe, have more surface area to distribute the load and stresses of the valvetrain. Today's oils have less zinc which gives them less film strength. Since they have less film strength the wider lobes help reduce the lbs per in. squared and put less stress on the lobe. In this instance you don't have to give a little to make it live. In fact you can get more and it will still live.
Zach
If you mean wider duration then yes, slow ramps can be associated with wider duration cams but not wider lobe width. Wider lobes let the oil between the lifter and the cam lobe, have more surface area to distribute the load and stresses of the valvetrain. Today's oils have less zinc which gives them less film strength. Since they have less film strength the wider lobes help reduce the lbs per in. squared and put less stress on the lobe. In this instance you don't have to give a little to make it live. In fact you can get more and it will still live.
Zach
Last edited:
Soup Nazi
The artist formerly known as Don M
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- Sep 26, 2006
- Messages
- 1,197
I dont see any information coming forward on any cam but the Helix 2. LOL
We also seem to have a differing definition of what a ramp is. Are we talking the lash ramp or the opening ramp, closing ramp, what?
There has been no groundwork or foundation layed for most to understand. Addition and subtraction first. Differential calc comes later.
We also seem to have a differing definition of what a ramp is. Are we talking the lash ramp or the opening ramp, closing ramp, what?
There has been no groundwork or foundation layed for most to understand. Addition and subtraction first. Differential calc comes later.
Hamilton Cams
ignorant
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If two trains heading the same speed........
fnschlaud4620
New member
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- Nov 13, 2007
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so is my cam going to become hamburger?
NickTF
Single turbo turd.
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- Jun 4, 2007
- Messages
- 5,887
I added more to the other thread. Will it live or not, that's the age old question. Better have some money if you want to push the limits and find out how agreesive and or how high of an rpm something can be pushed before failure. Otherwise best to stay in the realm of what is known. Seems there are much darkness on what is knowns to live and what is known to fail when it comes to diesel valve train. Likely because the amount of people swapping cams in and out of diesel is far less than that of the gas motor crowd. Those that pioneer the realm of failure will not likely share as it cost them alot of money to find that area. It's one of those things where you'd love to know for yourself but can appreciate the time money and effort vendors spend on finding these limits. Long and short call some of our cam gurus, have a discussion, and figure out what works for you. Good luck!
COMP461
Comp Diesel Sponsor
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- Apr 23, 2006
- Messages
- 4,009
We are nowhere near the point of maxing out the acceleration potential of the Cummins cam core.
With a diesel power plant, you must keep the timing events within a given range.
The opening of the exhaust effects blow down and spool. Open the exhaust valve too early and you give up cylinder pressure that potentially could translates in to power. (No Cam in the Street Category is even close to that). With A diesel, you are also opening the exhaust to increased cylinder pressure.
This pressure is a huge stressor on the exhaust valvetrain, necessitating careful consideration with the Exhaust opening Ramp design. The exhaust Lobe opening ramps I use, are very similar to Top Fuel Cam Exhaust lobe profiles I worked with many years back.
Next is the closing of the exhaust valve, and opening of the intake, There are two factors that are major considerations, when designing these events.
First, is that Diesels and for that matter all turbo charged application engines do not like overlap, the time where both valves are open at the same time. Overlap works in normally aspirated engines by helping to purge the cylinders of spent gasses, using new intake charge to push then out the exhaust valve.
This system is very dependent of tuned intake track and tuned headers to be effective. Diesel and other turbocharged applications have drive pressure in the exhaust track, and this almost negates the desired effect
Second is valve clearance, this is critical in maintaining compression ratio , and not having to move the top ring down any farther then necessary. It is also mandatory in street engines, when people do not want to cut the pistons for additional piston to valve clearance.
Now we come to intake closing , it’s a balancing act , keep it open longer and the motor moves air , keep it open too long and you could get reversion in to the intake track. In addition, bleed off dynamic compression. The difference between Dynamic compression and static compression is static is the calculated compression ratio, and dynamic is the actually compression amounting to the air trapped in the cylinder after the intake valve closes.
In reality, due to the poor design, the engine rarely finishes filling and continues to fill even as the piston is traveling up. This concept can become more exaggerated, as engine RPM increases.
Now to the meat of this, a Cummins B series cam is huge 54.5 mm or 2.125, Pro Stock Programs would have killed to have that 25 years ago. The lobe lift is relatively low, less than .400 on race cams and .300 on street cams which gives a very generous base circle. on that note , I have some 60 mm core with roller bearings coming out of hear treat .
these cams are for the 2.6 and 2.8 programs that tommy is now building. this will allow the need .600+ lift on 24 valve and .900 lift on 12 valve we need to work with the newest heads
The Rpm of this engine is very low in the scheme of things
The cam lobe is more than sufficiently wide, considering the load imposed, even the narrow lobes. My lobes are 1.001 wide, which were 30 % bigger then NASCAR flat tappet lobes turning 10,000 rpms with many times the spring pressure even thou my lobes are as wide as anyone’s , this lobe width issue is just a marketing smoke and mirror show. The tappet size and slow speed and spring load , is not a issue .
The acceleration rates are no when near maximum, and faster acceleration rates will allow big lobes with more area under the curve. This allows more airflow without going outside the parameters
With a diesel power plant, you must keep the timing events within a given range.
The opening of the exhaust effects blow down and spool. Open the exhaust valve too early and you give up cylinder pressure that potentially could translates in to power. (No Cam in the Street Category is even close to that). With A diesel, you are also opening the exhaust to increased cylinder pressure.
This pressure is a huge stressor on the exhaust valvetrain, necessitating careful consideration with the Exhaust opening Ramp design. The exhaust Lobe opening ramps I use, are very similar to Top Fuel Cam Exhaust lobe profiles I worked with many years back.
Next is the closing of the exhaust valve, and opening of the intake, There are two factors that are major considerations, when designing these events.
First, is that Diesels and for that matter all turbo charged application engines do not like overlap, the time where both valves are open at the same time. Overlap works in normally aspirated engines by helping to purge the cylinders of spent gasses, using new intake charge to push then out the exhaust valve.
This system is very dependent of tuned intake track and tuned headers to be effective. Diesel and other turbocharged applications have drive pressure in the exhaust track, and this almost negates the desired effect
Second is valve clearance, this is critical in maintaining compression ratio , and not having to move the top ring down any farther then necessary. It is also mandatory in street engines, when people do not want to cut the pistons for additional piston to valve clearance.
Now we come to intake closing , it’s a balancing act , keep it open longer and the motor moves air , keep it open too long and you could get reversion in to the intake track. In addition, bleed off dynamic compression. The difference between Dynamic compression and static compression is static is the calculated compression ratio, and dynamic is the actually compression amounting to the air trapped in the cylinder after the intake valve closes.
In reality, due to the poor design, the engine rarely finishes filling and continues to fill even as the piston is traveling up. This concept can become more exaggerated, as engine RPM increases.
Now to the meat of this, a Cummins B series cam is huge 54.5 mm or 2.125, Pro Stock Programs would have killed to have that 25 years ago. The lobe lift is relatively low, less than .400 on race cams and .300 on street cams which gives a very generous base circle. on that note , I have some 60 mm core with roller bearings coming out of hear treat .
these cams are for the 2.6 and 2.8 programs that tommy is now building. this will allow the need .600+ lift on 24 valve and .900 lift on 12 valve we need to work with the newest heads
The Rpm of this engine is very low in the scheme of things
The cam lobe is more than sufficiently wide, considering the load imposed, even the narrow lobes. My lobes are 1.001 wide, which were 30 % bigger then NASCAR flat tappet lobes turning 10,000 rpms with many times the spring pressure even thou my lobes are as wide as anyone’s , this lobe width issue is just a marketing smoke and mirror show. The tappet size and slow speed and spring load , is not a issue .
The acceleration rates are no when near maximum, and faster acceleration rates will allow big lobes with more area under the curve. This allows more airflow without going outside the parameters
Last edited:
Look at Hamilton's avatar...his cam has a wider lobe...you can't see the duration in that little picture...
Hamilton Cams
ignorant
- Joined
- Jun 28, 2007
- Messages
- 2,639
Comp I know say the wide lobes are a marketing ploy. I would say the same if I used a 12v core. The fact is that Cummins has been making the lobes wider and wider since 1998. They can make the lobes any width and yet they choose to fly in the face of what you are saying and use lobes almost twice the width you are using. I respectfully disagree with you.
Our 181/210.
exh. int.
.006-250 -213
.020-229-201
.050-210-181
.100-180-163
.200-144-128
.300-101-82
zach
Our 181/210.
exh. int.
.006-250 -213
.020-229-201
.050-210-181
.100-180-163
.200-144-128
.300-101-82
zach
Soup Nazi
The artist formerly known as Don M
- Joined
- Sep 26, 2006
- Messages
- 1,197
I suppose I have more cams circulating around than anyone for the Cummins. We use a .750 wide lobe. We have experienced only a few wear issues. We have used the same lobe width since 2004.
I have seen several worn lobes on cams with wider lobes.
I have seen several worn lobes on cams with wider lobes.
stock600
New member
- Joined
- Apr 1, 2008
- Messages
- 3,058
Some I think say they are, my reading says to check and make sure thier perfectly flat before re-using?
Hamilton Cams
ignorant
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- Jun 28, 2007
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.750 at the base circle and .711 on the nose. I guess you need to tell cummins to get the narrow ones back then, they must be crazy using the 1.250 on the current 24 valve engines.