4/7 sbc cam swap
#2
Senior Member
RACING JUNKIE
Join Date: Jan 2006
Location: La.
Posts: 2,890
Don't waste your money on a 4/7 swap cam unless it's an all out race motor, it was originally designed fot high RPM, and susposed to smooth out hormonics which gains HP, do i have one YES, but on an 800HP motor not 400 hP.
JMO
Zip.
JMO
Zip.
#4
Senior Member
DYNO OPERATOR
Join Date: Feb 2006
Location: VA Hospital, Dallas, Tx (214 302 1924) cell-972-464-7400
Posts: 540
4/7 swap cams do not improve fuel distribution. Even when said by some of tbhe highest most professional. voices in motorsports that is not what it does. The people pushing them don't even know why it is suppoosed to help.
As far as the problem of two adjacent cylinders fireing and one robbing the other from fuel I can agree with that. The 4/7 swap can not cure that. IT simply moves that 5-7 problem to now be a 2-4 problem. Nothing gained in fuel distribution corrections, like everyone and his brother say it does. The 4/7-2/3 swap also still ends with two adjacent cylinders firing, so the problem of fuel distribution is moved to the 1-3 cylinders. No matter which cylinders get swapped that same fuel distribution problem will still exist.
So don't believe all the false hype about why the 4/7 swap is better from cam companies or anyone who has not understood why it is done in the first place.
The 4/7 swap was pioneered by Warren Johnson as early as 1984 in a DRCE 1 Olds engine. NHRA refused to allow it in. Now everyone does it, but has no clue what it helps. It can help though.
When the two adjacent firing cylinders are in the end of the coolant flow chain it causes the rear cylinders of that bank to run hotter with higher EGT's. That can reduce power unless tuning compensated. Still it can reduce power becuase of the crutch needed in tuning to get the cylinder EGT down in the hot cylinders.
When you move the two adjacent firing cylinders to be in either the front of the coolant chain, those cylinders are getting fresh coolant from the water supply so them having uneven heating does not exist. That is the whole misunderstood reason for the 4/7 swap.
With the 4/7 - 2/3 swap which is used on all current pro stock engines, that cylinder uneven heat issue has been moved to the last cylinders in the coolant flow path so that the heated coolant is now exited immediately with nothing restricting it as it would be restricted in flow if stuck way in the back of the cooolant flow path as is in stock engines.
The HUGE benefit is that the firing cylinders will exert a more even shock load on the rotating crank with less harmonic deflections and will give a much smoother running engine with less stress on the crank meaning less twisting actions, less harmonic distortions and it all riuns and works together smoother.
All of the GM LS late model, engines use this 4/7 - 2/3 swap which was pioneered in conjuction by Steve Lowe of LSM System Engineering, not for horsepower but for better bottom end reliability with a smoother running engine. Listen to them run. Feel them as they are idling or running. That is from the C Swap or 4/7 - 2/3 swap firing order.
The problem is that only two current sources can supply that 4/7 - 2/3 swap core and every cam core company out there can supply the 4/7 swap cores. One core company is ofeering a few popular sizes in a 4/7 - 2/3 but not many.
So 4/7 can help becuase of the more even cooling on the cylinders, not becuase it corrects fuel distribution issues as everyone selling them claims.
Ed
As far as the problem of two adjacent cylinders fireing and one robbing the other from fuel I can agree with that. The 4/7 swap can not cure that. IT simply moves that 5-7 problem to now be a 2-4 problem. Nothing gained in fuel distribution corrections, like everyone and his brother say it does. The 4/7-2/3 swap also still ends with two adjacent cylinders firing, so the problem of fuel distribution is moved to the 1-3 cylinders. No matter which cylinders get swapped that same fuel distribution problem will still exist.
So don't believe all the false hype about why the 4/7 swap is better from cam companies or anyone who has not understood why it is done in the first place.
The 4/7 swap was pioneered by Warren Johnson as early as 1984 in a DRCE 1 Olds engine. NHRA refused to allow it in. Now everyone does it, but has no clue what it helps. It can help though.
When the two adjacent firing cylinders are in the end of the coolant flow chain it causes the rear cylinders of that bank to run hotter with higher EGT's. That can reduce power unless tuning compensated. Still it can reduce power becuase of the crutch needed in tuning to get the cylinder EGT down in the hot cylinders.
When you move the two adjacent firing cylinders to be in either the front of the coolant chain, those cylinders are getting fresh coolant from the water supply so them having uneven heating does not exist. That is the whole misunderstood reason for the 4/7 swap.
With the 4/7 - 2/3 swap which is used on all current pro stock engines, that cylinder uneven heat issue has been moved to the last cylinders in the coolant flow path so that the heated coolant is now exited immediately with nothing restricting it as it would be restricted in flow if stuck way in the back of the cooolant flow path as is in stock engines.
The HUGE benefit is that the firing cylinders will exert a more even shock load on the rotating crank with less harmonic deflections and will give a much smoother running engine with less stress on the crank meaning less twisting actions, less harmonic distortions and it all riuns and works together smoother.
All of the GM LS late model, engines use this 4/7 - 2/3 swap which was pioneered in conjuction by Steve Lowe of LSM System Engineering, not for horsepower but for better bottom end reliability with a smoother running engine. Listen to them run. Feel them as they are idling or running. That is from the C Swap or 4/7 - 2/3 swap firing order.
The problem is that only two current sources can supply that 4/7 - 2/3 swap core and every cam core company out there can supply the 4/7 swap cores. One core company is ofeering a few popular sizes in a 4/7 - 2/3 but not many.
So 4/7 can help becuase of the more even cooling on the cylinders, not becuase it corrects fuel distribution issues as everyone selling them claims.
Ed
#5
Junior Member
SHOW GUEST
Thread Starter
Join Date: Jul 2005
Posts: 2
Hey guys, thanks alot just a beginner here!!! You never learn if ya dont ask people that deal with this kind of stuff every day!!!! What would be a good cam for a street/ strip? Was thinking of a 406 or bigger like a 421 with dart 215 alu. heads and pump gas 6 inch rods. im building a little vega! Thanks again!!!
#6
Senior Member
RACING JUNKIE
Join Date: Jan 2006
Location: La.
Posts: 2,890
Originally Posted by bigdawg71
Hey guys, thanks alot just a beginner here!!! You never learn if ya dont ask people that deal with this kind of stuff every day!!!! What would be a good cam for a street/ strip? Was thinking of a 406 or bigger like a 421 with dart 215 alu. heads and pump gas 6 inch rods. im building a little vega! Thanks again!!!
JMO
Zip.
#7
Senior Member
RACING JUNKIE
Join Date: Sep 2007
Posts: 4,137
Originally Posted by edvancedengines
4/7 swap cams do not improve fuel distribution. Even when said by some of tbhe highest most professional. voices in motorsports that is not what it does. The people pushing them don't even know why it is suppoosed to help.
As far as the problem of two adjacent cylinders fireing and one robbing the other from fuel I can agree with that. The 4/7 swap can not cure that. IT simply moves that 5-7 problem to now be a 2-4 problem. Nothing gained in fuel distribution corrections, like everyone and his brother say it does. The 4/7-2/3 swap also still ends with two adjacent cylinders firing, so the problem of fuel distribution is moved to the 1-3 cylinders. No matter which cylinders get swapped that same fuel distribution problem will still exist.
So don't believe all the false hype about why the 4/7 swap is better from cam companies or anyone who has not understood why it is done in the first place.
The 4/7 swap was pioneered by Warren Johnson as early as 1984 in a DRCE 1 Olds engine. NHRA refused to allow it in. Now everyone does it, but has no clue what it helps. It can help though.
When the two adjacent firing cylinders are in the end of the coolant flow chain it causes the rear cylinders of that bank to run hotter with higher EGT's. That can reduce power unless tuning compensated. Still it can reduce power becuase of the crutch needed in tuning to get the cylinder EGT down in the hot cylinders.
When you move the two adjacent firing cylinders to be in either the front of the coolant chain, those cylinders are getting fresh coolant from the water supply so them having uneven heating does not exist. That is the whole misunderstood reason for the 4/7 swap.
With the 4/7 - 2/3 swap which is used on all current pro stock engines, that cylinder uneven heat issue has been moved to the last cylinders in the coolant flow path so that the heated coolant is now exited immediately with nothing restricting it as it would be restricted in flow if stuck way in the back of the cooolant flow path as is in stock engines.
The HUGE benefit is that the firing cylinders will exert a more even shock load on the rotating crank with less harmonic deflections and will give a much smoother running engine with less stress on the crank meaning less twisting actions, less harmonic distortions and it all riuns and works together smoother.
All of the GM LS late model, engines use this 4/7 - 2/3 swap which was pioneered in conjuction by Steve Lowe of LSM System Engineering, not for horsepower but for better bottom end reliability with a smoother running engine. Listen to them run. Feel them as they are idling or running. That is from the C Swap or 4/7 - 2/3 swap firing order.
The problem is that only two current sources can supply that 4/7 - 2/3 swap core and every cam core company out there can supply the 4/7 swap cores. One core company is ofeering a few popular sizes in a 4/7 - 2/3 but not many.
So 4/7 can help becuase of the more even cooling on the cylinders, not becuase it corrects fuel distribution issues as everyone selling them claims.
Ed
As far as the problem of two adjacent cylinders fireing and one robbing the other from fuel I can agree with that. The 4/7 swap can not cure that. IT simply moves that 5-7 problem to now be a 2-4 problem. Nothing gained in fuel distribution corrections, like everyone and his brother say it does. The 4/7-2/3 swap also still ends with two adjacent cylinders firing, so the problem of fuel distribution is moved to the 1-3 cylinders. No matter which cylinders get swapped that same fuel distribution problem will still exist.
So don't believe all the false hype about why the 4/7 swap is better from cam companies or anyone who has not understood why it is done in the first place.
The 4/7 swap was pioneered by Warren Johnson as early as 1984 in a DRCE 1 Olds engine. NHRA refused to allow it in. Now everyone does it, but has no clue what it helps. It can help though.
When the two adjacent firing cylinders are in the end of the coolant flow chain it causes the rear cylinders of that bank to run hotter with higher EGT's. That can reduce power unless tuning compensated. Still it can reduce power becuase of the crutch needed in tuning to get the cylinder EGT down in the hot cylinders.
When you move the two adjacent firing cylinders to be in either the front of the coolant chain, those cylinders are getting fresh coolant from the water supply so them having uneven heating does not exist. That is the whole misunderstood reason for the 4/7 swap.
With the 4/7 - 2/3 swap which is used on all current pro stock engines, that cylinder uneven heat issue has been moved to the last cylinders in the coolant flow path so that the heated coolant is now exited immediately with nothing restricting it as it would be restricted in flow if stuck way in the back of the cooolant flow path as is in stock engines.
The HUGE benefit is that the firing cylinders will exert a more even shock load on the rotating crank with less harmonic deflections and will give a much smoother running engine with less stress on the crank meaning less twisting actions, less harmonic distortions and it all riuns and works together smoother.
All of the GM LS late model, engines use this 4/7 - 2/3 swap which was pioneered in conjuction by Steve Lowe of LSM System Engineering, not for horsepower but for better bottom end reliability with a smoother running engine. Listen to them run. Feel them as they are idling or running. That is from the C Swap or 4/7 - 2/3 swap firing order.
The problem is that only two current sources can supply that 4/7 - 2/3 swap core and every cam core company out there can supply the 4/7 swap cores. One core company is ofeering a few popular sizes in a 4/7 - 2/3 but not many.
So 4/7 can help becuase of the more even cooling on the cylinders, not becuase it corrects fuel distribution issues as everyone selling them claims.
Ed