This is a continuation of another thread that was a victim of thread drift. THREAD HERE
After research it was determined that the AFR head had the best flow and they were subsequently purchased in Nov. of 2001. Just now getting around to setting them up and had a sort of rude awakening. They are the SBF 165cc emissions heads with all hardware.
Bolted the Crane energizer rocker arms and right away noticed the roller tips weren't centered on the valve tips in either direction. Having already heard some horror stories from the machinist about stuff breaking on an AFR head I researched further.
Not only do the tips not line up but they are inconsistent from one to the next, some are way off and some are dead center.
Degreeing the cam showed some other problems. Timing variances at the valve were off by as much as 4 degrees between valves and lift was inconsistent and way over the cams advertised specs. Measuring timing and lift at the cam showed it to be dead on so the problem is in the upper valve train.
First will be discussed inboard to outboard centering of the valve tip contact.
When the rocker arms are set up to ultimate geometry and correct cam spec lift at the valve, the roller tips are about .075" short of center. When the pushrod is lengthened to center the valve tip contact the geometry is past ultimate and the lift on the valve goes from an advertised spec of .542" to .572". This is because the rocker geometry goes from a designed ratio of 1.6 to something closer to 1.7.
This extra lift causes more problems because the cam was purchased to work with the valve springs which AFR says will handle .550" lift. It also brings up a valve to piston clearance issue. Again here it is inconsistent with the best being about .075" and the worst about .043". This is going to require some eyebrow cutting to bring it to the .090" to .100" range that is standard practice.
Next is the front to rear centering of the valve tip contact. This is adjusted by the push rod guide plates but you have to adjust each cylinders valve pair together in that each plate has two slots that are a fixed distance apart. 7 of the 8 cylinders would not center in that the tips of the rocker pairs were too far apart to line up with the valve pairs.
What's causing all these problems? It looks like production tolerance stackup. A straightedge shows that the valve tips are slightly inconsistent in all three planes and the rocker arm studs are also off in the two planes that matter (front to rear and side to side). Further investigation and machinst's input shows that the rocker studs are budget items that are inaccurate and soft. They aren't straight and are easily bent with a soft blow from a mallet. The threaded stud holes in the head are also inserted with heli-coils which aren't the most precision method.
The first thing that was tried was a rocker arm swap just to be sure. The Cranes had the same part number for small block ford and chevy and the Comp cams pro-magnum had a different number so it was thought that the stud hole might not be the same. The pro-magnum was just the same as the crane as far as valve tip contact, the only benefit was it's a more durable and lighter rocker. So the rockers weren't causing any geometry problem.
The next correction was to modify the guideplates to get front to rear valve tip contact centering. Isky is the only one that makes adjustable guideplates for adjustment between pairs. The AFR plates were cut down the center with a grinder and then the rockers centered individually and the plates welded back together in place. Heat dam paste was used to keep the weld heat from ruining the plates hardening and damaging the head. The weld area has to be ground down also in that the surface coating or hardening affects weld quality.
Then to help inboard/outboard centering a set of ARP rocker studs was installed. This improved considerably the centering consistency it's not perfect but it's acceptable. The pushrod length that yields correct geometry still doesn't center the tip. The compromise will be to center the valve tip and accept the increased valve lift/ rocker ratio. This necessitates a smaller cam to work with the existing springs. A call to AFR brings up another problem, the installed springs only work to .510" lift when a roller cam is used, now you tell me. This is caused by the ramp rate of the roller cam needing more spring. So now the cam and the springs will have to be swapped. It might be nice to stick with this same cam but the pockets and installed height of the existing springs won't allow a big enough spring. The pockets would have to be opened up and a longer valve installed.
The cam is brought down from a .542/.563 286/294 to a .499/.510 275/299. These specs are with a 1.6 rocker ratio but the increased ratio due to existing geometry will bring the lift to about .520/.540. The springs are swapped for a Comp cams 978-16 that has the same dimensions but a higher rate to handle the roller cam and increased lift from the higher ratio rocker geometry.
The only other problem will be piston to valve clearance, will have to remeasure with the smaller cam but some eyebrow cutting will probably be necessary, hopefully not so much as to require balancing.
Just a heads up, no pun intended, for anyone purchasing AFR heads. If you want to blueprint to a high standard maybe consider bare heads and do your own machining of valve guides, rocker stud holes, and an improved thread insert. Maybe they have improved since the time these were purchased I'm not sure. I still think these heads have the best flow out of the box they could just use some improvement in the valve train precision, although this may be standard for the price you are paying.
Will update this post and maybe some pics as time permits.
After research it was determined that the AFR head had the best flow and they were subsequently purchased in Nov. of 2001. Just now getting around to setting them up and had a sort of rude awakening. They are the SBF 165cc emissions heads with all hardware.
Bolted the Crane energizer rocker arms and right away noticed the roller tips weren't centered on the valve tips in either direction. Having already heard some horror stories from the machinist about stuff breaking on an AFR head I researched further.
Not only do the tips not line up but they are inconsistent from one to the next, some are way off and some are dead center.
Degreeing the cam showed some other problems. Timing variances at the valve were off by as much as 4 degrees between valves and lift was inconsistent and way over the cams advertised specs. Measuring timing and lift at the cam showed it to be dead on so the problem is in the upper valve train.
First will be discussed inboard to outboard centering of the valve tip contact.
When the rocker arms are set up to ultimate geometry and correct cam spec lift at the valve, the roller tips are about .075" short of center. When the pushrod is lengthened to center the valve tip contact the geometry is past ultimate and the lift on the valve goes from an advertised spec of .542" to .572". This is because the rocker geometry goes from a designed ratio of 1.6 to something closer to 1.7.
This extra lift causes more problems because the cam was purchased to work with the valve springs which AFR says will handle .550" lift. It also brings up a valve to piston clearance issue. Again here it is inconsistent with the best being about .075" and the worst about .043". This is going to require some eyebrow cutting to bring it to the .090" to .100" range that is standard practice.
Next is the front to rear centering of the valve tip contact. This is adjusted by the push rod guide plates but you have to adjust each cylinders valve pair together in that each plate has two slots that are a fixed distance apart. 7 of the 8 cylinders would not center in that the tips of the rocker pairs were too far apart to line up with the valve pairs.
What's causing all these problems? It looks like production tolerance stackup. A straightedge shows that the valve tips are slightly inconsistent in all three planes and the rocker arm studs are also off in the two planes that matter (front to rear and side to side). Further investigation and machinst's input shows that the rocker studs are budget items that are inaccurate and soft. They aren't straight and are easily bent with a soft blow from a mallet. The threaded stud holes in the head are also inserted with heli-coils which aren't the most precision method.
The first thing that was tried was a rocker arm swap just to be sure. The Cranes had the same part number for small block ford and chevy and the Comp cams pro-magnum had a different number so it was thought that the stud hole might not be the same. The pro-magnum was just the same as the crane as far as valve tip contact, the only benefit was it's a more durable and lighter rocker. So the rockers weren't causing any geometry problem.
The next correction was to modify the guideplates to get front to rear valve tip contact centering. Isky is the only one that makes adjustable guideplates for adjustment between pairs. The AFR plates were cut down the center with a grinder and then the rockers centered individually and the plates welded back together in place. Heat dam paste was used to keep the weld heat from ruining the plates hardening and damaging the head. The weld area has to be ground down also in that the surface coating or hardening affects weld quality.
Then to help inboard/outboard centering a set of ARP rocker studs was installed. This improved considerably the centering consistency it's not perfect but it's acceptable. The pushrod length that yields correct geometry still doesn't center the tip. The compromise will be to center the valve tip and accept the increased valve lift/ rocker ratio. This necessitates a smaller cam to work with the existing springs. A call to AFR brings up another problem, the installed springs only work to .510" lift when a roller cam is used, now you tell me. This is caused by the ramp rate of the roller cam needing more spring. So now the cam and the springs will have to be swapped. It might be nice to stick with this same cam but the pockets and installed height of the existing springs won't allow a big enough spring. The pockets would have to be opened up and a longer valve installed.
The cam is brought down from a .542/.563 286/294 to a .499/.510 275/299. These specs are with a 1.6 rocker ratio but the increased ratio due to existing geometry will bring the lift to about .520/.540. The springs are swapped for a Comp cams 978-16 that has the same dimensions but a higher rate to handle the roller cam and increased lift from the higher ratio rocker geometry.
The only other problem will be piston to valve clearance, will have to remeasure with the smaller cam but some eyebrow cutting will probably be necessary, hopefully not so much as to require balancing.
Just a heads up, no pun intended, for anyone purchasing AFR heads. If you want to blueprint to a high standard maybe consider bare heads and do your own machining of valve guides, rocker stud holes, and an improved thread insert. Maybe they have improved since the time these were purchased I'm not sure. I still think these heads have the best flow out of the box they could just use some improvement in the valve train precision, although this may be standard for the price you are paying.
Will update this post and maybe some pics as time permits.
