Hopping up the 500 Cadillac
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[[File:Mts cad head.jpg|thumb|left|600px|MTS custom aluminum 76cc "FR" head, ~$3500/pair ca. 2012]] <br style="clear:both"/> | [[File:Mts cad head.jpg|thumb|left|600px|MTS custom aluminum 76cc "FR" head, ~$3500/pair ca. 2012]] <br style="clear:both"/> | ||
| − | *The | + | *The Edelbrock intake works good on a 500 inch or smaller motor if you don’t exceed 4500 rpm. Larger motors or those with good heads need the new single plane from MTS. Power will NOT drop off like the Edelbrock which is airflow limited. The Edelbrock will make 30-40 ft/lbs more torque under 3500 rpm. The MTS is worth 50 ft/lbs torque and 50 horsepower at 5000 rpm over the Edelbrock. |
[[File:Mts single plane intake cad.jpg|thumb||left|600px|MTS single plane aluminum intake manifold]] <br style="clear:both"/> | [[File:Mts single plane intake cad.jpg|thumb||left|600px|MTS single plane aluminum intake manifold]] <br style="clear:both"/> | ||
| − | *The factory Q-jet works good on the | + | *The factory Q-jet works good on the Edelbrock. It does NOT seem to work very well on the single plane even with rejetting. Reversion from the huge secondaries on the single plane may be the problem. |
*Multiple sizes and types of carburetors were tried. Best torque and horsepower with the large chamber heads was with an out-of-the-box 750 Holley. Best by 20 horsepower. The large chamber heads flowed only 710 cfm MAX measured through the carburetor at 5200 rpm under load on the dyno. Larger carbs up to 1000 cfm were tried and ALL lost horsepower and torque. | *Multiple sizes and types of carburetors were tried. Best torque and horsepower with the large chamber heads was with an out-of-the-box 750 Holley. Best by 20 horsepower. The large chamber heads flowed only 710 cfm MAX measured through the carburetor at 5200 rpm under load on the dyno. Larger carbs up to 1000 cfm were tried and ALL lost horsepower and torque. | ||
*The long stroke Cadillac, whether 4.300" stock or 4.600" stroker, needs plenty of cam. Several cams have been tried. For any type of performance use, a minimum of 234-244 degrees intake duration at 0.050" tappet rise with as much lift as you can get, works well. This cam will peak at 5100 rpm but still have good torque at 3000 rpm. With really good heads, add 10 degrees or 244-254 degrees intake duration. Stock heads and stock valves only need about 220-230 degrees intake duration. Anything bigger will not flow any more air because of head flow limits. | *The long stroke Cadillac, whether 4.300" stock or 4.600" stroker, needs plenty of cam. Several cams have been tried. For any type of performance use, a minimum of 234-244 degrees intake duration at 0.050" tappet rise with as much lift as you can get, works well. This cam will peak at 5100 rpm but still have good torque at 3000 rpm. With really good heads, add 10 degrees or 244-254 degrees intake duration. Stock heads and stock valves only need about 220-230 degrees intake duration. Anything bigger will not flow any more air because of head flow limits. | ||
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*549 ft/lbs torque @ 3200 rpm, yet still made 502 ft/lbs @ 4600 rpm | *549 ft/lbs torque @ 3200 rpm, yet still made 502 ft/lbs @ 4600 rpm | ||
*442 hp @ 4500 rpm, and still showing 438 @ 5100 rpm | *442 hp @ 4500 rpm, and still showing 438 @ 5100 rpm | ||
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| + | ==Another example== | ||
| + | The following dyno results were from a 518 cid Cadillac engine. 10.5 to 1 compression, hydraulic roller cam with 246 degrees duration at 0.050" and 0.620" lift. Single pattern cam on a 112 degree + 2 degree LSA. CNC ported MTS aluminum heads and single plane intake. MTS 1.7 to 1 rockers and a Troy Patterson 1100 CFM 4150 carb. MTS ignition system. | ||
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| + | Peak HP (620) occurred at 5200 RPM and peak torque (643) occurred at 4700 RPM. At 2600 RPM (the lowest rpm a reading could be obtained), torque was 543 and by 2900 it was 575 and at 5400 RPM was at 590.9. That's a pretty flat torque "curve". The average torque from 2600 rpm to 5300 was 606.6. This engine was run on 89 octane fuel. Timing was set at 30 degrees btdc where prior engines run on 93 liked about 6* more. This engine would also idle at 600 rpm. | ||
==Also see== | ==Also see== | ||
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[[Category:Engine]] | [[Category:Engine]] | ||
[[Category:GM]] | [[Category:GM]] | ||
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| + | Hot rodding the cadillac 472 500 by Bloodviking | ||
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| + | I hot rodded these engines back in the 80s and boy did it suck. | ||
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| + | The can I? , or should i hot rod a cadillac 472 500 engine question has been asked since about 1968. Other cadillac engines made before had some success. The 331,390,429. | ||
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| + | A cadillac 472 500 is a Pontiac engine. Put in a Cadillac. | ||
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| + | You really need to replace everything if your going to build a sound cadillac engine except for the block. The blocks are the strongest part of the engine. The entire valvetrain needs an adjustable aftermarket set. Valves included need replaceing. New cam. No reprints. A shimed up oil pump. A rear sump and pan is usually needed as most 472 and 500s are front sump. Some engines are Mid sump works in some Chrysler chassis. Rear sump in chevy and Pontiacs and front sump for ford. Deville front sump, siville mid sump, Eldorado rear sump. You must get the pickup designed for that pan. They do not interchange. Aftermarket balancer, forged rods, forged pistons. So the crank and block are good. The crank is heavy. Not good for quick throttle response. If you turn the mains down and over board the block to 4.440 you'll weaken everything. I was told you can go to a large 4.440 bore. I've never tried it. Not worth it I'm sure.you have to have the flexplate redrilled for a standard chevy tork converter. They peak at about 5000 rpm no matter what you do short of destroking them. The 425 seems to be a hated motor.no one hod rods them. But they do have a liter crankshaft in them. If you have loads of money then it can work out for you. I've never seen an aftermarket hi performance pump, or new casting design, made for these engines. Don't expect a 7500 rpm runner here. | ||
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| + | As time goes on the aftermarket support makes these blocks more attractive. I'm told they can take 3000 hp by the nhra engine builders. The crank won't I'm sure. No 4340 cranks yet available. | ||
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| + | Mix the wrong cc heads and you get a 12.5 to 1 comp ot 7 to 1. Not all heads interchange well. Hardened valves are much needed. Stock heads need major porting or just buy the newest cnc heads available on the market. They may set you back 5k. | ||
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| + | With loads of money and aftermarket support you can do it. You can build a chevy 427 for less. | ||
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| + | Bloodviking | ||
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