road car cam for my 318

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I'm with @ch1ll on this one. I always recommend calling your chosen manufacturer (or several if you want options) to see what they suggest. If their website has a downloadable cam recommendation form, print it and fill out as much as you know before you call. Those guys design cams for a living. They'll provide better results than crowdsourcing, whether it's a custom grind or something they regularly stock.

After that, look into your timing. As the Borscht Belt comedians used to say, "Timing is everything." At part-throttle cruise you want a ton of it (often 50+ degrees). The more timing it likes, the more power it makes. The more power it makes, the less you have to open the throttle to maintain the same speed. Juggling and adjusting vacuum-advance canisters can work wonders here without affecting your base and centrifugal timing.

With economy being of primary concern, your car is also a spectacular candidate for a 340/360 ThermoQuad. It's hard to beat a good spread-bore when your foot's not in it.
Yep, thermoquad would be my choice for all street driven cars.
 
Yep, thermoquad would be my choice for all street driven cars.
Don't mean to highjack the op thread, but does the quadrajet work on the sbm? What dual plane intake manifold will a spreadbore fit without a adapter if possible? Thanks guys.
 
Don't mean to highjack the op thread, but does the quadrajet work on the sbm? What dual plane intake manifold will a spreadbore fit without a adapter if possible? Thanks guys.
Of course they work on a SBM. They were factory equipment in the early '80s or so when Carter was having troubles.
Spreadbore dual plane? There's the factory cast iron manifold, Eddy Performer, later issue LD340, a bunch of MP M1s, Weiand Stealth, and on and on...
No idea why you'd want to willingly run a Quadrajunk though, maybe on a dare... Stick with a TQ.
 
Of course they work on a SBM. They were factory equipment in the early '80s or so when Carter was having troubles.
Spreadbore dual plane? There's the factory cast iron manifold, Eddy Performer, later issue LD340, a bunch of MP M1s, Weiand Stealth, and on and on...
Awesome, thanks. I must have over looked the weiand stealth.
 
My opinion is you will never in a million years feel the difference between a 112 LSA and a 108 LSA in such a mild build. However, the 112 LSA will have a better vacuum signal and operate vacuum accessories such as power brakes better than the 108 LSA all things equal. It's just not a decision I would dwell on for two minutes. I'd have one on the way already.
 
Don't mean to highjack the op thread, but does the quadrajet work on the sbm? What dual plane intake manifold will a spreadbore fit without a adapter if possible? Thanks guys.
yes. in fact the quadrajunk was factory equipment on several flavors of mopar in the late 70's and early 80's.

factory dual plane 4bbl intakes after 1970 are compatible. or the eddy performer, sp2p and weiand action plus just to name a few.

there are several that can fit with some grinding: weiand stealth, offy 360, LD340 (*faints*)
 
Of course they work on a SBM. They were factory equipment in the early '80s or so when Carter was having troubles.
Spreadbore dual plane? There's the factory cast iron manifold, Eddy Performer, later issue LD340, a bunch of MP M1s, Weiand Stealth, and on and on...
No idea why you'd want to willingly run a Quadrajunk though, maybe on a dare... Stick with a TQ.
I looked up the edelbrock performer rpm intake and it said that he thermoquad will not fit, bummer. But I'm going to check out the other ones
 
Excuse me, it's the Weiand Action Plus. The Stealth will also accept a spreadbore, it just needs the secondaries clearanced.
I thought that it might be possible to get it to fit. I'm glad that I asked you guys and thanks for the help.
 
I looked up the edelbrock performer rpm intake and it said that he thermoquad will not fit, bummer. But I'm going to check out the other ones
The Performer. Not the Performer RPM. Different manifolds.
Performer:
1729565779278.png

RPM:
1729565884987.png
Now back to our regularly scheduled thread.
 
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I am with Jim, posts # 14 & 17.
I would use the Isky mileage cam #3901-M. The low comp ratio is a big factor. Have your current lifters re-faced.
I doubt a TQ would give much improvement, if any, over the AVS2 carb, as the '2' has annular boosters which are very fuel efficient.
 
Funny someone mentioned "not a long duration", but when I read the OP's spec, the first thing I thought was _"that's a LOT of duration for a stock 318", despite having a modest to moderate lift for that application.
 
Funny someone mentioned "not a long duration", but when I read the OP's spec, the first thing I thought was _"that's a LOT of duration for a stock 318", despite having a modest to moderate lift for that application.

That is advertised duration. If you look up the cam it’s 216/216 @ 0.050” lift.
 
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I have a 318 in one of my Darts that is mated with a 42RH 4 speed OD automatic, and has 2.94 gears. 8.5:1 compression, Edelbrock Performer intake and a 650 AVSII. It is a long distance road trip car. I believe that the current cam is not serving me well - 17mpg on the road, lack of vacuum for power brakes at low RPMs, rough idle especially when in gear. When in overdrive with the lock-up converter engaged:
45 mph - 1550 RPM
55 mph - 1700 RPM
65 mph - 1850 RPM
75 mph - 2000 RPM
(all numbers approximate with relatively small tach and my 54 year old speedo (augmented with a GPS))

I'm looking for suggestions for a different cam. There used to be a ton of "mileage cams" out there in the late 70s/and 80s but I don't see them advertised these days. The one in there now is advertised for 1800 to 5000 rpms, so a lot of my driving between 45 and 65 mph barely gets into the range when I'm out on the road doing miles. I would like to boost the gas mileage if I can, and provide more vacuum to the booster for stop and go in town driving.
He may be retired by now but the guy that runs Oregon Cam gives great advice. His name slips my mind right now. He’s a wealth of information. Oregon Cam is still in business.
 
My opinion is you will never in a million years feel the difference between a 112 LSA and a 108 LSA in such a mild build. However, the 112 LSA will have a better vacuum signal and operate vacuum accessories such as power brakes better than the 108 LSA all things equal. It's just not a decision I would dwell on for two minutes. I'd have one on the way already.

It is the overlap the defines vacuum. A 112 LSA with X degrees of overlap will have as much vacuum as a 108 LSA with the same overlap. If you read Vizards books he has data that shows what LSA (all other things equal) can do if you get it wrong. The difference between a motor that wants low LSA (because it does not have great heads and small valve diameter) and going to a long LSA (108 to 112 is a huge difference he did 108, 110 and 112 I believe) was over 20HP and 20 ft-lbs of torque. His data has shown that the highest sensitivity to optimal engine operation is LSA selection not valve opening events (remember the other key here is keeping overlap similar as that is what you select to decide where you want the power band). He is in the middle of this debate on his YouTube channel right now as Eric Weingardner is doing a cam shootout on his channel this week. Entrants design a cam for specific mule engine he has. Will be interesting.
 
He may be retired by now but the guy that runs Oregon Cam gives great advice. His name slips my mind right now. He’s a wealth of information. Oregon Cam is still in business.

He was still tinkering around the show earlier this year when I ordered a slant cam.
 
It is the overlap the defines vacuum. A 112 LSA with X degrees of overlap will have as much vacuum as a 108 LSA with the same overlap. If you read Vizards books he has data that shows what LSA (all other things equal) can do if you get it wrong. The difference between a motor that wants low LSA (because it does not have great heads and small valve diameter) and going to a long LSA (108 to 112 is a huge difference he did 108, 110 and 112 I believe) was over 20HP and 20 ft-lbs of torque. His data has shown that the highest sensitivity to optimal engine operation is LSA selection not valve opening events (remember the other key here is keeping overlap similar as that is what you select to decide where you want the power band). He is in the middle of this debate on his YouTube channel right now as Eric Weingardner is doing a cam shootout on his channel this week. Entrants design a cam for specific mule engine he has. Will be interesting.
Well, with all due respect to the man, I have differing opinions sometimes as to what is "wrong". In this hobby, if you can tune, you can make lots of "wrong" things work very well.
 
current cam is a Crane 15005
adv. duration - 272
.454 lift
1800 to 5200 rpm

Not the right cam for my use...

I am confused, this is a 216/216 @ 0.050" with 110 degree LSA and you are saying it has low vacuum? What are you considering low? This cam should have more than enough... is the intake leaking or something?
 
I am confused, this is a 216/216 @ 0.050" with 110 degree LSA and you are saying it has low vacuum? What are you considering low? This cam should have more than enough... is the intake leaking or something?
My guess would be timing too far retarded. That's the culprit a lot of the time. Could also answer why it's sluggish.
 
My guess would be timing too far retarded. That's the culprit a lot of the time. Could also answer why it's sluggish.
Like the carb tuning videos. He always starts with timing.
 
My guess would be timing too far retarded. That's the culprit a lot of the time. Could also answer why it's sluggish.

What distributor is in this car? Original? It likely could use reducing the mechanical advance so you can run higher initial timing and still max out at around 32-34 degrees. I did that to all my cars and it make a world of difference.
 
What distributor is in this car? Original? It likely could use reducing the mechanical advance so you can run higher initial timing and still max out at around 32-34 degrees. I did that to all my cars and it make a world of difference.
I don't know. I would just figure out where the initial needs to be and put it there. Likely it would have too much total at that point, but then you get the distributor out, weld and refile the slots. ......it's SO simple to do yet so many people lock up in fear of doing it. You don't have to worry about any fussy limiter plate to get hung up on anything or produce the wrong advance than what it's marked. You figure it out yourself and modify it accordingly. Everybody wants "plug and play" to the point that they don't want to actually do any work to get there and that always results in an underperforming engine. I run about 21 initial in my slant 6 and about 10 mechanical, plus "whatever" the vacuum can pulls in, which is about 20. Basically the same with the Ford 400 in my truck, but it has about 34-35 total, plus the 20 on the vacuum can. People get so scared of doing it and they don't stop to realize it's all grammar school geometry. Every bit of it. Just like degreeing a camshaft.
 
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