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I guess I need to tell my builder to dump his 5 axis CNC block machine and start looking for the "accurate" Ford core-shift specials.. I'd heard for every "good" 427 block that was made one went back at the factory for scrap and melt down due to tolerance/casting inconsistencies. I'll take any knowledgeable qualified, CNC equipped shop over Ford of yester-year (60s & 70s). For quality, metallurgy and a host of reasons. Dave |
New Part Problems
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Core shift is a tolerance just like any other dimension and parts at large companies like Ford that end up outside the BP range are reviewed by educated specialists to determine whether they are acceptable to send out as is, rework or scrap......I would rather have that scenario than a high school educated machinist at a small shop with a relatively narrow scope of experience to be making such calls. Whether it be aircraft or autos, parts are custom selected for the most demanding applications and always have been. Presidential aircraft are not allowed to use components that have been through the "MRB" (Material Review Board) because of non-conformities and even the best automotive race engine parts made today are individually inspected and picked by the top NASCAR teams. There is alot of BS out in the automotive field. I did some fairly extensive research and analysis of rocker arms for a vintage factory Shelby American race engine I recently finished. The general philosophy with the engine was to stay as stock as possible, but not expose myself to excessive risk that could destroy castings, etc that could not be replaced. My initial thought was to go with a steel roller tip rocker, but after multiple spread sheets of rocker kinematics, mock ups and phone conversations with the top designers at most of the rocker arm companies, leading race engine shops (incl NASCAR and an F1 designer) and others, the stock Ford rocker surfaced as the best solution - just with some minor tweaks like polishing, different adjuster and special coatings. It turns out that roller tips do initially roll, but as engine speed increases, the inertia of the roller tip going in one direction can't be immediately stopped and started in the opposite direction, so they skid. This negates the benefit and puts excessive contact stresses on the valve tip due to the much more localized point contact of the relatively small radius roller. In addition, the extra mass of the roller and it's supporting structure force you to run notably more spring pressure to reach the same RPM.....which puts more stress on the rest of the valvetrain components. If you look at the rocker arms used by the top NASCAR teams, they are very similar to the almost 50 year old FE part being made out of a steel alloy with a pad tip and "fin" on the backside as the most efficient way to generate stiffness. One top designer at a rocker arm company said he doesn't want his identity revealed, but they mainly offer roller tip rockers (often aluminum, which is not good for this) to meet demand from the low buck engine builders who aren't able to determine optimal configurations. |
I'll have to agree, "as cast" the OEM s/o blocks are ready and machined properly for use right out of the box whereas the Genesis/Pond/Shelby requires skilled prep prior to it being useable. I guess my point would be that after proper prep by a skilled, properly equipped machine shop the aftermarket block would hold up to more abuse than an equally prepped OEM block. I think I read that the Shelby block's good to around 2000 ponies. It's not a side oiler design like Pond and Genesis though. We won't even talk Dove, as they wouldn't be a consideration.
The valve train info's very interesting. I'm sure spring loads, cam ramps, which oil, RPMs etc impact on the valve tip scuffing issue. Are you saying this applies to street driven engines at reasonable (6500 and below) RPMs? Fascinating though, thanks for the info. |
Rockers
The choice of pad or roller tip is influenced by a number of factors and engine attributes. An assessment of valve scrub work vs cam rotation angle for your given design will reveal how effective the subject pad is for relative comparisons. Starting with a clean sheet of paper with today's technology, pads are typically complex splines to minimize scrub work (i.e. reducing it at higher loads) - which means old original rocker pads are probably not as optimized.
If an engine spends much of it's time at only maybe 2,000 rpm and is never taken to real high revs to where high spring pressure is not required, a roller tip is probably in its realm of being most beneficial. At this lower speed the roller tip may be predominantly rolling and reducing friction and therefore result in lower lateral valve stem loads (although even a pad would have much lower scrub work at lower spring loads). This may provide a very slight power and fuel mileage gain and increase valve guide life (a big problem with FE's) relative to an old design stock pad rocker, however the gains in power and mileage are probably very small and don't offset the increased cost and potential reliability issues, otherwise the car companies would have jumped on board long ago by retrofitting it in all passenger cars. Power increases that some manufacturers claim from installation of their roller rockers I believe is primarily due to a rocker geometry which results in greater valve lift at lower cam lifts (effectively increasing duration) - you may have heard of this aspect referred to as "mid lift" optimized rockers. One of my big concerns was valve guide life, given the miles that can rack up in street use. I have previously run FE's for enough years to know the guides wear relatively soon with higher spring pressures. The solution I chose with the stock pad tip rocker was to apply special low friction coatings to the rocker shaft, stock rocker tip and entire valve (incl tip) to reduce friction to hopefully a benign level....and rocker to shaft bearing mode life should be accordingly enhanced. Two other concerns are rocker strength and geometric ability to handle the valve lifts employed. In large part by keeping components light, I've been able to keep max spring loads safely below 500lb, such that with polishing I believe fatigue is not a major problem with the stock part. If you have much higher spring load, you will be forced into using an aftermarket rocker arm, which for the most part are all roller tip for the FE (excluding some excessively heavy pad rockers by Crane or whoever). The pad tip can be problematic if you exceed the design operating lift parameters. Even though my cam profile is within the envelope of the top factory race grinds used back in the 60's, the rocker rotates enough at max lift for the pad to ride right to it's edge. Aside from undesirable point loading if gone too far, scrub can go up dramatically if the contact point reverses direction in this regime. The stock rocker looks ok to maybe .650" lift (pushing it), so if you have higher lift you need to reconsider options. By the way, I'm referring to actual net valve lift, not to be confused with lift erroneously calculated by using "1.76" times cam lift after lash. A custom pad rocker can no doubt be designed to encompass higher lifts and spring loads, although the cost would be prohibitively excessive for most people on a low volume basis. Aside from avoiding the expense of doing that, I'm happy I was able to maintain using original parts with my configuration. |
I have another thought with oil delivery. With the FE, most engines builders including myself, blocked off the oiling to the heads, thus more can go below. The side oiler is reversed, do we leave the heads un-plugged so the top end gets enough oil ?
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Those OE 427 blocks from the 60's were selected or scrapped, and very often repaired at the factory before they ever made it to the door. I've seen them with individual lifters bushed, odd sized bearings, and with weld or epoxy repairs in non-critical areas. I've seen cylinders so thin you'd swear you could use them as a lace curtain. Any machining issues were doubtless corrected before assembly - you would never know if they'd been pulled from the line and rehoned, line honed, decked or whatever. A volume OE casting and machining plant melts it's scrap. Modern SPC processes and cost containment methodology did not apply to that era.
The NASCAR and in particular LeMans programs were doubtless based on custom and/or hand selected/inspected parts at every level of the assembly. I have seen some very interesting internal components from that program that were far outside of the realm of "normal" FE pieces - and could still be considered radical designs today. Ever see a "forked" pin end connecting rod? I suspect that the primary driver for the non-roller tip NASCAR rockers is weight reduction at the valve end. I tend to agree that the roll couple at the tip is quite small, but do not see how directional reversal inertia could be much of an issue due to that short travel - perhaps .080". The benefit of the roller tip lies in the pivot function - reducing side load imparted to the valve tip. Skidding or scrubbing is most likely the result of uncontrolled valve bounce taking the roller out of contact with the valve. Reducing the weight would help with high RPM valve control - something of a "Devil's agreement"... |
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You should come up with a test rig and verify rocker roller tip skidding for yourself, it would just need to be fairly sophisticated to see the small relative motions. I've been told by multiple leading edge engine developers that lab testing has shown the roller tip to skid progressively more as engine speed goes above 2,000 rpm, depending on individual engine attributes. As skidding occurs, the side load on the valve is the same or worse than a pad rocker at the same point in the lift curve (usually worse, because a good design pad tends to rock across the tip). I know the engineer responsible for the new Vette Z06/ZR1 valve train design and he said they went through all the vacillations/testing of evaluating whether to go with a roller tip and went with the pad - in spite of the fact that the rest of the engine has all the trick high buck things like Titanium con rods and intake valves, lightweight pistons, roller lifters, etc. By the way, while people think the FE is so antiquated, it may be interesting to note that the Z06 rocker is virtually the same ratio and offset, weight, inertia and, of course, pad design as the 427 Ford. In fact, you can go through the whole design of the Z06/ZR1 engine and it seems almost certain the GM engineers had an FE there during development: Valve head diameters within about .010" of 427's, hollow stem sodium filled steel exhaust valves just like the 427, bore and stroke almost identical to the 428 Ford, Titanium retainers vs. aluminum retainers used by Shelby American on team car engines, valve inclinations/layout similar to the FE with spark plug angled toward the exhaust valve just like the FE, roller lifters similar to roller lifters that Shelby American used in their top of the line race engines back in the day, lifter diameter increased to I believe FE diameter from the smaller size used in earlier Chevy small blocks (smaller lifter is a problem in achieving higher cam ramp rates), heart styled combustion chambers similar to the aluminum comp Cobra HR head, Most of the differences in the newer engines focus on subtle refinement details, like valve coatings, harder guides, better sealing rings, etc. |
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David |
David- I watched the same program. What a kick it was too see the old dogs racing and you could actually tell a difference between the car makes, not like today !
Anyway, what I've always believed is the big blocks (any manufacture) were mostly about producing huge torque numbers while the small blks. were for high rpm's. The good olé' 283 Chevy was one of the best high rpm engines ever produced. When I built my Cobra years ago, I had to have a FE. When we built the 428, we were amazed by the ever climbing torque numbers ! A great friend of mine here on CC, told me with this side oiler build, not to worry about the HP, but build a torque engine. But, I know I will be disappointed if it does not make 600 + HP and TQ. I seriously doubt, mine will ever see over 6,500 rpm and maybe just 6,000 rpm. But, things can change. ;) With the money it will cost, I have to build it for the street, cruising with occasional drag strip run, and a must,..... dependability ! As you all know, launching from a stop and high rpm's are the worst for any engine, including the new side oiler's, especially on the crank but more important, the valve train. Here are a couple questions. I have another thought with oil delivery. With the FE, most engines builders including myself, blocked off the oiling to the heads, thus more can go below. The side oiler is reversed, do we leave the heads un-plugged so the top end gets enough oil ? And- Going with a mechanical roller, with a yet to be determined high lift, the torture with the high valve spring pressure is a concern for longevity as well as the roller tip rockers. I'm sure with the new technology we have today, the CNC head machining, higher quality seats, seals, valves and springs ect. What are some valve train recommendations for this modern,...... 482 side oiler build, and why ? |
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My grandpa had a 65 Chevy pickup with a 283, 2V, three speed on the column and in the late 60's when I was driving I would regularly take off in 1st gear and hold my right foot to the floor till the motor "nosed over" before shifting to second. You couln't hurt that motor, after he died, my brother-in-law ended up with the truck and it probably had close to 200,000 miles on it when he got rid of it and it never had a head or the intake off!!!!!!!!!!! It had been well used and "abused" (by me mostly) most of it's life......... David |
Having built both original Ford 427 side oilers and a Genesis 427 side oiler I have to disagree with the premise that the original Ford blocks were, in your words "ready and machined properly for use right out of the box". This is a mistake rookies often used to make. Ford NOS 427 blocks often had a few minor problems or even major ones. Lets face it, the 427 side oiler block is a difficult part to make even with today's technology.
In the old days union guys who were about to or just had been on strike were not subject to drug testing and they were not happy about their jobs. Ford's tooling was not always the best, some of the equipment at DIF was ancient and outdated even in 1966. They had a difficult time making enough 427 blocks to meet demand, despite the support of one of the world's biggest car companies. Today you have (in the case of the Genesis, Shelby and Pond 427 blocks) a small group of dedicated professionals soberly building a product using better technology than the originals, including better machine tools and better control of cores and better iron mix control. You still find some quality issues, but I find they are no worse than Ford and possibly not as serious as some of the problems I have seen with original NOS 427 blocks. The same is true of cylinder heads. An out of the box set of Edelbrock 427 heads is likely good enough to be considered better than an out of the box brand new set of 427 MR heads from 1967. The only drawback I see to the new blocks is the additional 32 pounds in a Genesis block compared to the original Ford part. Finally, bear in mind that the Ford GT-40 427 engines run at LeMans won without ever exceeding 6800 RPM. Quote:
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Out of curiosity, lets try and get a head count of just how many of us would like to see this go into print in the magazine. I know that a lot of members won't see this post and add themselves to the head count but, it still would be interesting anyway.
I appreciate Keith & Barry's in-site and information as two of the best FE builder in the country. And to all of members that have added their point of view. ;) Thanks to all of you. :) |
Since none of the 'new' 427 S/O have run NASCAR at 7K rpm for 3-4 hours, as well as the 24 hours of Le Mans. A comparison would be speculative at best. I'll stand by my opinion that there wouldn't be that much difference.
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Good idea. How do I add it to the post now, since I already posted ?
Thank you much, Kevin |
You are welcome to your opinion.
None of the "old" 427 blocks has won Hot Rod's Drag Week. Jay Brown has won it with a Genesis 427 though. He was close to winning it a second time last year and would have if there had been decent Cammer 427 rocker arms available. No speculating here. The new side oiler blocks are made from better materials and the design has been improved upon. Again, referencing Pond, Genesis, or Shelby blocks, all of which are easily superior in a multitude of ways to any original side oiler block. These new 427 blocks are not going to make any different amount of power if built identically to an original. A good rebuilt original is going to be just as reliable at the horsepower levels seen at Nascar back then or at Le Mans, say 550 horsepower. I doubt that anyone is going to build a pair of engines to the same specs just to satisfy posers who don't understand the question is already answered. Quote:
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I think there may be a horspower advantage of newer blocks, such that with thicker, stiffer cylinder walls may maintain their concentricity better, for better ring sealing, kind of like the benefit of boring/honing out a block with a torque plate.
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I can see that newer technology and metalurgy methods have enabled us to make better blocks.
As far as the argument between new and old blocks it is a hard one to settle.Many of the old blocks today are worn out,sleeved or otherwise damaged/culled race parts. Most of those are the c8az-G service replacements from the 70's/80/s which arent close to the quality of the original 427 blocks in nickle content or bore alighment. Whats hard to see here is the superiority the 427 fe's held on the other big blocks of their era ,ie:BBC in which the 427's fe's usually prevailed.Although there were many 427's spun at and over 7k rpm of which some failed. Most of the failures were due to rod bolts and rods.I remember hearing Holman Moody xrayed even the good ford bolts out of the box and culled maybe 25% of brand new bolts due to flaws.The good old boy racers were buying over the counter parts and slapping them together not realizing with the head work and high octane fuel availiable they were making more power than the componets could stand. There is no doubt in my mind that the new componets and new gen builders are making much better and stronger stuff,it is a shame ford dropped the program in the 70's and we couldnt have seen continual factory development of the fe. The FE may not be the best engine of today ,but it is without doubt detroits best factory racer of it's day,IMHO |
Mr. 1968,
2 posts and already your a know it all.:mad: Gotta get that union slam in also even though it was 40yrs ago. I was told to edit what I prev. had written, but you may think the worst and then youd be correct!! |
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