Glitter in 6.2L oil ... please help

[rdezs]

.... And it's the cleaning I hate the most.

 

[rdezs]

On a side note, as it sounds like you're leaning towards keeping the AFM working.... The root cause of most failures is that VLOM manifold with the solenoids in it. Specifically it's usually one of those solenoids. One malfunctions, directs a lifter to do what it shouldn't do at the wrong time, and you have major engine damage. So if you're going to keep it it's probably good idea to go ahead and replace it, which should help somewhat with oil pressure as well as a preventative measure against a catastrophic failure. Even if you use one of the inexpensive devices that plugs into the OBD2 port to disable it, I would go ahead and replace it to address oil pressure issues. The genuine GM is about $260 on RockAuto. They also have one made by Dorman that supposedly is improved somehow, for about $180. I've got no experience or knowledge about the Dorman unit. The GM one, at least you know it's lasted however many miles you have right now.

When you're putting it back together, make sure you put a new screen in the hole where the oil pressure sending unit goes. And you might consider looking online, there's several sending unit relocation kits that move the sending unit to the end of a steel braided hose that you can wire tie up on the firewall. That makes it convenient way to swap in a mechanical gauge to verify pressures, and then just reinstall the OEM sending unit. Also makes future changes in checks a 5-minute ordeal.

And don't be surprised if you find half or more of the bolts securing the VLOM down loose. As in not even finger tight. That's pretty common. On assembly, a little bit of blue loctite on the threads will take care of that.

 

[j91z28d1]

The amount of peak horsepower you can get with the VVT cam is rather limited. A non BBT cam really opened the door up for higher horsepower. Generally as you add more horsepower with those cams, the power band is up high, and you lose the low end torque. The VVT.... Wether in an l92 without AFM or an old 94 with it.... Both make roughly 408 horsepower with lots of torque right off idle. It's sort of a compromise for driveability reasons. The best way to get the best of both worlds is with more displacement. Such as a 408 cubic inch stroker. There's so many choices in so many variables, it really does depend on what each person wants to use it for. For my wife's commuter and grocery getter, it's more than she'll ever need or use. (She gave it 3/4 throttle getting on the freeway and actually scared herself, LOL)
And if it's destined to be a family car, you might want to consider reliability. You start putting more lift on those valve springs, more pressure on the cam, result in a shorter overall engine life. But that's not a concern for someone after sheer horsepower.

One other veritable with cam shafts and low end torque is, Iobe separation angle, your stock cam is very wide, for smooth idle and clean emissions. the aftermarket can tightening that up, let it lope a bit and gain mid range(what most consider low end) and hp up top.


the ls7 stock cam shaft is a good example of this.. it's actually pretty big for a stock cam,( without looking it wouldn't surprise me if it's close to a stage 1 truck cam) it will allow a 7L engine with very very high flowing heads to pull cleanly to 7k rpm without dropping off. I actually smacked the Rev limiter passed 7k in one the first time I drove it, my ls3 car falls on its face well before redline and I never hit limiter. but idles dead smoothly and passes oem 50 state emissions. to do that it gives up mid range torque, but you don't gain as much hp up top as a normal mild cam shaft swap would.

you can take that 7L cam, drop it in a smaller size 6.2, which normally would allow the smaller engine to spin even more rpm. but a mild cam around the same spec but allows for a cammed out idle, but would never pass oem emissions would make more over all power from as little as 1500rpm up to the same redline.


so basically if your willing to swap in a small, say stage 1 truck cam with a good tune, it doesn't surprise me at all that you get more or the same low end power as a stock vvt setup does, and still make that extra 50hp up top most cam swaps are know for.