It turns out that Sealed Power actually offers the '73-'74 LS4 camshaft. I found it by crossing the OE 353040 part number at www.napaonline.com and it came up as CS660. The high level specs are as follows (I/E durations @ .050"/IPOML/EPOML/LSA/lobe lifts, inches, inlet data listed first)
210/213/109/117/113/.258/.258
The CS1093M, which is the replacement for the early 3883986 (with a rear journal groove) and 3904359 (no rear journal groove) is as follows:
214/218/110/120/115/.271/.282
As far as I know the CS1093M has no rear journal groove, so one will have to be machined for use in '66 390 HP engines.
The 343040 has slightly less lift and the lower LSA on similar durations means it has slightly more effective overlap. My hunch is that more overlap was designed in to help meet federal NOx standards that went into effect in 1973 (1971 in California). Any added overlap would increase exhaust gas dilution and lower NOx, but degrade idle quality and low end torque.
I don't know if the relative durations of either cam are suitable for the cylinder head E/I flow ratios, because I have no data for either as-built or massaged heads, either open or closed chamber. On balance the early design probably offers more broad range performance, but without head flow data for both as-built and massaged, open and closed chamber configurations, it's impossible to conduct accurate simulations.
It's my understanding that all hydraulic lifter Corvette big blocks had 2.06/1.72" valves, and heads up to 1970 were of the closed chamber variety and open chamber from 1971-1974.
Duke
210/213/109/117/113/.258/.258
The CS1093M, which is the replacement for the early 3883986 (with a rear journal groove) and 3904359 (no rear journal groove) is as follows:
214/218/110/120/115/.271/.282
As far as I know the CS1093M has no rear journal groove, so one will have to be machined for use in '66 390 HP engines.
The 343040 has slightly less lift and the lower LSA on similar durations means it has slightly more effective overlap. My hunch is that more overlap was designed in to help meet federal NOx standards that went into effect in 1973 (1971 in California). Any added overlap would increase exhaust gas dilution and lower NOx, but degrade idle quality and low end torque.
I don't know if the relative durations of either cam are suitable for the cylinder head E/I flow ratios, because I have no data for either as-built or massaged heads, either open or closed chamber. On balance the early design probably offers more broad range performance, but without head flow data for both as-built and massaged, open and closed chamber configurations, it's impossible to conduct accurate simulations.
It's my understanding that all hydraulic lifter Corvette big blocks had 2.06/1.72" valves, and heads up to 1970 were of the closed chamber variety and open chamber from 1971-1974.
Duke
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