Good Sam Community

Lessmore wrote:
Interesting piece. Not surprising though, every mechanical device has a destructo limit. I must add, that I don't for the life of me know why some guys just have to soup up their engines to the point of quick and eventual no return, given that diesel engines in modern HD pickups offer tremendous power in their stock form.

I can understand that those in the racing industry...would extend their engines as far or farther then they can handle...it's racing and that's a factor in winning...after all that's the bizness they're in.

But for some guy driving around in a street truck...I do not know why.

Me Again wrote:

Lessmore wrote:


A year or so before...I had a '67 Camaro coupe, RS, red line tires, Muncie, 327 V8, rally wheels, Marina Blue...still think it was a very sharp looking car.

I had a debadged SS350 Camaro. Wish I still had it. It was a 10.25 to 1 compression ratio 295HP fun car with the Bose sound system and Muncie 4 speed and tall 3:23 gears if I remember correctly. Mono leaf rear springs were a short fall that was fixed in 68.

ShinerBock wrote:

Lessmore wrote:

But for some guy driving around in a street truck...I do not know why.

I guess we are on opposite ends of the spectrum. You ask why someone would even add more power to their truck and I ask why someone would even care what someone else does to their own truck with their own money.

I mean, I can see me wondering why if I payed their vehicle payment and all, but I couldn't care less if some guy wants to buy an $80k Corvette just to drive on roads that he can never go over 75 mph on..... or a Jeep that they will never take off road...... or a truck to only haul groceries. I guess we will both be forever wonder why.

Lessmore wrote:


A year or so before...I had a '67 Camaro coupe, RS, red line tires, Muncie, 327 V8, rally wheels, Marina Blue...still think it was a very sharp looking car.

Lessmore wrote:

But for some guy driving around in a street truck...I do not know why.

FishOnOne wrote:

Lessmore wrote:
Interesting piece. Not surprising though, every mechanical device has a destructo limit. I must add, that I don't for the life of me know why some guys just have to soup up their engines to the point of quick and eventual no return, given that diesel engines in modern HD pickups offer tremendous power in their stock form.

I can understand that those in the racing industry...would extend their engines as far or farther then they can handle...it's racing and that's a factor in winning...after all that's the bizness they're in.

But for some guy driving around in a street truck...I do not know why.

In 1970 you could order a Chevelle with a basic 350 4blr carb or you could order a Chevelle SS with a LS6 454. I owned the later and it was a pure joy to drive. It's what floats your boat.... And mine was HP with good looks to top it off. :B

FishOnOne wrote:
I find it hard to believe the weak point is not the head gasket failures on two of the engines from the entire list.

ShinerBock wrote:

ksss wrote:

ShinerBock wrote:

TakingThe5th wrote:
I'm pleasantly surprised that the Ford 6.0 did so well. I've been told that it's one of the strongest Ford blocks once all the quirks are worked out. So far I've been very pleased with my bulletproofed 6.0.

While the 6.0L did have some issues, some of these issues in the aftermarket world should have been attributed to bad tuning rather than the 6.0L itself. Being one of the first Powerstoke engines that could be tuned electronically, novice tuners would crank up the timing and fuel delivery at lower rpms causing very high cylinder pressures. This would cause head bolts to stretch and gaskets to blow. The same thing happened when the Cummins 6.7L first came out blowing head gaskets left and right.

As tuning software became more sophisticated and tuners became more knowledgeable, these problems became a thing of the past. However, many on the internet don't know this and still contribute these old issues to anything tuned even though they don't even relate. Heck, even the software mapping the OE's used back then has advanced giving them better and more smoother fuel mapping. The fuel mapping on the old ECM's used for the 6.7L Cummins when it first came out are much different with less parameters available than the ECM's used on the current engines. More parameters means smoother fuel mapping and greater ability to control low rpm cylinder pressures.

Actually when you read the entire lawsuit between Ford and IH you see that the 6.0 failed on its own without the help of the tuners. They may have made some issues worse but the 6.0 was a disaster from inception.

I think you read what I stated incorrectly. I did say that the 6.0L had issues. However, on the aftermarket side of things many of the tuners attributed their bad tuning to problems with 6.0L instead of their inexperienced bad tuning. Many of the good tuners were able to make even more power reliably.

Lessmore wrote:
Interesting piece. Not surprising though, every mechanical device has a destructo limit. I must add, that I don't for the life of me know why some guys just have to soup up their engines to the point of quick and eventual no return, given that diesel engines in modern HD pickups offer tremendous power in their stock form.

I can understand that those in the racing industry...would extend their engines as far or farther then they can handle...it's racing and that's a factor in winning...after all that's the bizness they're in.

But for some guy driving around in a street truck...I do not know why.

ksss wrote:

ShinerBock wrote:

TakingThe5th wrote:
I'm pleasantly surprised that the Ford 6.0 did so well. I've been told that it's one of the strongest Ford blocks once all the quirks are worked out. So far I've been very pleased with my bulletproofed 6.0.

While the 6.0L did have some issues, some of these issues in the aftermarket world should have been attributed to bad tuning rather than the 6.0L itself. Being one of the first Powerstoke engines that could be tuned electronically, novice tuners would crank up the timing and fuel delivery at lower rpms causing very high cylinder pressures. This would cause head bolts to stretch and gaskets to blow. The same thing happened when the Cummins 6.7L first came out blowing head gaskets left and right.

As tuning software became more sophisticated and tuners became more knowledgeable, these problems became a thing of the past. However, many on the internet don't know this and still contribute these old issues to anything tuned even though they don't even relate. Heck, even the software mapping the OE's used back then has advanced giving them better and more smoother fuel mapping. The fuel mapping on the old ECM's used for the 6.7L Cummins when it first came out are much different with less parameters available than the ECM's used on the current engines. More parameters means smoother fuel mapping and greater ability to control low rpm cylinder pressures.

Actually when you read the entire lawsuit between Ford and IH you see that the 6.0 failed on its own without the help of the tuners. They may have made some issues worse but the 6.0 was a disaster from inception.

ShinerBock wrote:

TakingThe5th wrote:
I'm pleasantly surprised that the Ford 6.0 did so well. I've been told that it's one of the strongest Ford blocks once all the quirks are worked out. So far I've been very pleased with my bulletproofed 6.0.

While the 6.0L did have some issues, some of these issues in the aftermarket world should have been attributed to bad tuning rather than the 6.0L itself. Being one of the first Powerstoke engines that could be tuned electronically, novice tuners would crank up the timing and fuel delivery at lower rpms causing very high cylinder pressures. This would cause head bolts to stretch and gaskets to blow. The same thing happened when the Cummins 6.7L first came out blowing head gaskets left and right.

As tuning software became more sophisticated and tuners became more knowledgeable, these problems became a thing of the past. However, many on the internet don't know this and still contribute these old issues to anything tuned even though they don't even relate. Heck, even the software mapping the OE's used back then has advanced giving them better and more smoother fuel mapping. The fuel mapping on the old ECM's used for the 6.7L Cummins when it first came out are much different with less parameters available than the ECM's used on the current engines. More parameters means smoother fuel mapping and greater ability to control low rpm cylinder pressures.