keep in mind, the cam in the 360 was going to have a stock torque converter and highway gears... started as 2.45's and now 3.23's. Better converter and gears, the engine would come to life with a better cam. It's why I say, if you do not plan to go to the drag way or race the car ever, just want low end torque, I think a factory 318 cam can deliver what you are hoping for. I would focus more on the tune of the ignition, quality timing set, a good valve job, etc
Billy Godbold's book Highperformance Camshafts and Valvetrains is a good book. I have read it once and as ou have stated you need to read it a few times.
Pretty much all our SBM, SBC and SBF engines are head limited. The Boss 302 was one that had too much head for the street. That is one reason to replace 128 in the formula with 132 for LSA selection. Also why GM LS engines employ wide LSA on their OE cams. In the Chev Performance catalogue they list two cams for circle track use. I believe these are ground on a 108°LSA as idle quality is not a major concern when running between 3000 and 7000 RPM.
Excellent common sense explanation. I like it.
Your duration is still fairly short, so it should be close to stock idle quality. I replaced the cam in my 1982 Blazer with the lopo 305. Factiry cam was something like 192°/196° @ 0.050. Intake lift was 0.375" and exhaust was 0.396". I looked at the TRW catalogue and chose the cam two up from the dtock 350 cam snd fourth up from the stock 305. The guy did not want to sell it to me for the 305 as he thought it was too much. 204°/214° @ 0.050" with 0.42" and 0.48" lift. I think the LSA was 110°, but this cam was the RV 350 cam. Gosh did it improve vacuum, driveability and fuel economy. Idled rock solid.
Especially when you add say 0.030" lift in with that cam timing. As with any cam swap, piston to valve clearance must be checked. This can be done without removing the head by putting #1 on TDC and putting air into the cylinder to hold the valves shut. Then the valve springs can be replaced withight checking springs. Remove the air pressure and put the rockers back on. The closest exhaust will be about 10° BTDC and intake will be about 10° ATDC. A dial inducator on the edge of the retainer and push down on the rocker over the valve stem will indicate the clearance. You may have to check a few degrees before and after the 10° point mentioned.
204° @0.050" lift on a 108°LSA cam is not much more than stock. An "RV" cam. It will likely benefit with some minor adjustment to the tune, but even the stock cam may benefit with the additional TLC of a tune.
Dan, you asked a question. Part of the answer is to find the video from David Vizard on his Powertec 10 channel. He explains very well and simply in two separate videos; What the Cam Manufacturers Get Wrong and there is another that discusses the 128 formula. In his book How to Build Horsepower David goes through the formula. It is very easy to understand. Some on here have posted about IVC and its relation to cylinder pressure. To understand the valve event timing requires a lot more knowledge than what you appear to have. Now I am not intending to be insulting by that statement, only expressing what you appear to know and not know.
318 cams are wanting a bit. A 360 cam is likely going to perk it up a bit and still keep a smooth idle. A 340 cam may introduce a bit of lope to the idle. This is really where the tune comes into play.
I've ran all 3 in 318's. Yes, they'll make a difference, but, neither of those offer any more off idle stomp than the 318 2bbl cam, results are seen once you get it going. I've had 318's that took some getting used to for a new driver because they would lay rubber at the tap of the gas, and that's with stock converters and highway gears.
True enough on comparing on youtube vids. But you have to admit that DV's consulting record with Cup Car teams, F1 teams, the General along with his race and pole winning record kind of proves he knows a few things. When his information is closely aligned with people like Mike Jones, you can assume they know what is going on. You do not have to agree with them. If you have your own method that works for you, carry on. This is not directed at you but a lot of other nay sayers.
As I stated that part was intended more for those that discredit DV, and are nay sayers.
Nothing new about this thread. Reminds me of back in 1978 drinking a few beers with friends. After a few to many on of the guys who was looking at a RV Cam ( so he can have A/C and power brakes work in his cruiser ) to put in his junk yard low mile motor.
Do not forget the main person here is the person that asked a question, the OP. For cam selection he is a neophyte, so KISS is required. This is why I recommended he watch DV's cam select videos or get a copy of How to Build Horsepower.
COMP Cams Effect of Changes In Cam Timing and Lobe Separation Angle - COMP Cams®I understand...
I'm trying to correct mis-information from getting passed along and someone falsely believing it...
I was replying to pentastar's post that tighter lobe center will make more cylinder pressure with the intake valve closing when they are not related... The OP's question was about lobe separation, not intake valve closing... I don't agree with him responding to my reply on lobe separation that tighter lobe separation will make more cylinder pressure - that's incorrect... Tighter LSA will make lower cylinder pressure than larger LSA because of more overlap of the intake and exhaust valve open - it's simple physics...
Stating that tighter lobe separation will make more torque because of earlier intake valve closing is like asking "do you walk to work or pack a lunch"...
Larger lobe separation with early intake valve closing will make the higher cylinder pressure and more torque... If you make the lobe center smaller and the intake valve close later, that will decrease cylinder pressure and reduce torque...
Intake valve closing is completely independent of lobe separation and can be moved to achieve any intake valve closing that you wish... Intake valve closing and lobe separation work together to determine the cylinder pressure of an engine...
I've done cam calculations forward, backward, inside out, and upside down and found errors and conflicts with many cam manufacturer's published information and corrected it in my charts... I have tried to simplify the question that he's answered and break it down to basic physics and the math on how those parameters will affect the performance of the camshaft and explain it in layman's terms...
I'll use a 268* duration cam for how to calculate the inv. I've tried this formula several times along cams that have their inv closing listed and it's dead on. cpearce also included a post from comp cams. He we go. 268*÷2=134*+112*=246* - 4* advance =242 -180 = 62*inv. 268*÷2=134*+108*=242- 4* advance = 238 -180 = 58* ivc. None of the formulas included the valve overlap. So going by their formula for finding the inv closing point the lsa does affect the ivc, I couldn't find or figure any way to get a wide lsa and get a sooner inv point.I understand...
I'm trying to correct mis-information from getting passed along and someone falsely believing it...
I was replying to pentastar's post that tighter lobe center will make more cylinder pressure with the intake valve closing when they are not related... The OP's question was about lobe separation, not intake valve closing... I don't agree with him responding to my reply on lobe separation that tighter lobe separation will make more cylinder pressure - that's incorrect... Tighter LSA will make lower cylinder pressure than larger LSA because of more overlap of the intake and exhaust valve open - it's simple physics...
Stating that tighter lobe separation will make more torque because of earlier intake valve closing is like asking "do you walk to work or pack a lunch"...
Larger lobe separation with early intake valve closing will make the higher cylinder pressure and more torque... If you make the lobe center smaller and the intake valve close later, that will decrease cylinder pressure and reduce torque...
Intake valve closing is completely independent of lobe separation and can be moved to achieve any intake valve closing that you wish... Intake valve closing and lobe separation work together to determine the cylinder pressure of an engine...
I've done cam calculations forward, backward, inside out, and upside down and found errors and conflicts with many cam manufacturer's published information and corrected it in my charts... I have tried to simplify the question that he's answered and break it down to basic physics and the math on how those parameters will affect the performance of the camshaft and explain it in layman's terms...
