Good Sam Community

ib516 wrote:
So Pickuptrucks.com did some testing in 2010 at Milan Dragway in one of their comparisons, and again in 2014 using the same place.

Both times an F250 with the 6.2L V8 gas engine was tested. In the 2010 Shootout, they used a 2011 model, and in 2014, they used a 2014 model. Both were rated at the same 385hp/405tq.

The only difference between the trucks was that one had a 3.73 axle (2014), and the other had a 4.30 axle (2011).

Here are the comparisons:

0-60:
3.73 axle truck - 9.03 sec
4.30 axle truck - 9.80 sec

1/4 mile:
3.73 axle truck - 17.2 sec @ 83.4 mph
4.30 axle truck - 17.5 sec @ 84.3 mph

I would have thought the 4.30 geared truck would have been faster accelerating than the 3.73 truck. Same cab & body style, both 4x4 automatics with the same transmission.

The same thing happened when Pickuptrucks.com tested two GM 1500s, each with the 6.2L V8. The 3.42 truck was slightly slower accelerating than the 3.23 truck. Weird.

Now, for those of you keyboard warriors that are getting ready to type "I didn't buy my truck to drag race" or, "who cares about 0-60 times?"
Save it. It's just a discussion. Take your heart meds and go back to watching the Price is Right. :B

References:
2014 test - 3.73 axle

2010 test - 4.30 axle

GM vs GM / 3.23 vs 3.42

DirtyOil wrote:

Perhaps to the garage to be fixed...

I have noticed that when the truck is used to make a living or where the the environment is tough, everybody seems to drive a RAM..that kinda tells ya something...

..and my mechanics really like Fords / Chevvies because they keep them busy especially the diesels..

and I hear the '15 RAMs are even better...

.... and let the games begin... :B

Perhaps to the garage to be fixed...

I have noticed that when the truck is used to make a living or where the the environment is tough, everybody seems to drive a RAM..that kinda tells ya something...

..and my mechanics really like Fords / Chevvies because they keep them busy especially the diesels..

and I hear the '15 RAMs are even better...

TomG2 wrote:
Besides, if you are in a hurry, you should have got a Chevrolet.

Gdetrailer wrote:

8iron wrote:

Gdetrailer wrote:

Turtle n Peeps wrote:

4x4ord wrote:
My guess is that the 4.30 made 1 more shift getting up to 60 mph .... so third gear where as the 3.73 would make it to 60 mph in 2nd. That would be a big advantage for the 3.73 as it would be running close to maximum horsepower as it approached 60 mph instead of loosing time to shift and then running at a lower horsepower rpm as it approached the 60 mph mark.


And it could be a similar thing in the 1/4 mile.

Winner, winner chicken diner!

To make a very complex explanation as short as I can:

Lets say an engine makes it's peak HP at 7,000 RPM. The closer I can keep that vehicle at 7,000 RPM for a given race, the quicker that vehicle is going to be.

To get the best time out of their cars racers actually over rev their engines slightly to do this.

EX: Again using the 7000K peak HP engine: An engine that is shifted at 7,200 RPM which drops back to 6,500 will be quicker than an engine shifted at 7,000K and drops back to 6,300K.

As 4x4 has alluded to, I suspect the 4:30 geared truck was caught in between two gears. If one did the math, I suspect the 3:73 truck kept it's % of RPM closer to peak HP.

This is a prime example of gears not making HP. In fact, as I have stated in the past, it's (slightly) the opposite.

With the car I drive right now we went from a 4:11 gear to a 3:73 gear and the ET got slightly quicker and the MPH went way up. We improved the HP slightly and the ET showed it.

Race cars and modern day trucks are far, far apart in technology..

You have to own a 6.2 to fully understand as to why the race between 3.73 and 4.30 outcome was not as folks would expect..

You see, the 6.2 engine management has a very aggressive computer program called traction assist.

Traction assist throttles back the engine automatically to prevent you from breaking traction..

Traction assist also does not open the throttle quickly below 2K RPM which also results in a bit slower acceleration at low speed..

I would bet that there are different throttle curves for the two different axle ratios on top of that.

4.30 ratio is far easier to break traction than 3.73 so unless they intentionally TURN OFF the traction assist (traction assist is AUTOMATICALLY ENABLED ON EVERY START) I can easily see how the 4.30 ratio would turn in slightly slower times..

Don't confuse torque management with Fords Flintstone like traction control. TC only activates once wheel spin is detected...and usually not for a good bit after the wheels are spinning.

No, sorry traction control is full time AND cuts back the throttle BEFORE the wheels ever get a chance to break loose.

I HAVE experienced this more than once.. It often makes me mad especially when you REALLY need to pour on the coals when you are STUCK 8 inches of snow :M and trying to spin your way out.

Traction control STOPS you from opening the throttle at the least bit of wheel slip, it detects this extremely fast well before you would.. Trust me.. I have more than once had to reach all the way over to the passenger side to turn it off (why in the world would those idiots stick this button nearly out of reach of the driver is beyond me)..

I would bet if they turned off the traction assist the numbers would have been a bit different.. the 4.30 ratio would have broke traction faster and easier than the 3.73..

But really.. who in the world really cares about racing 7000 lb trucks any way.. They were never intentioned for being fast off the line and never intentioned to go fast.. They are not Corvettes and never will be.

The 6.2 is a very nice powerful engine and using it for what it WAS designed and intended for (pulling heavy loads easily) is what I use it for :B

8iron wrote:

Gdetrailer wrote:

Turtle n Peeps wrote:

4x4ord wrote:
My guess is that the 4.30 made 1 more shift getting up to 60 mph .... so third gear where as the 3.73 would make it to 60 mph in 2nd. That would be a big advantage for the 3.73 as it would be running close to maximum horsepower as it approached 60 mph instead of loosing time to shift and then running at a lower horsepower rpm as it approached the 60 mph mark.


And it could be a similar thing in the 1/4 mile.

Winner, winner chicken diner!

To make a very complex explanation as short as I can:

Lets say an engine makes it's peak HP at 7,000 RPM. The closer I can keep that vehicle at 7,000 RPM for a given race, the quicker that vehicle is going to be.

To get the best time out of their cars racers actually over rev their engines slightly to do this.

EX: Again using the 7000K peak HP engine: An engine that is shifted at 7,200 RPM which drops back to 6,500 will be quicker than an engine shifted at 7,000K and drops back to 6,300K.

As 4x4 has alluded to, I suspect the 4:30 geared truck was caught in between two gears. If one did the math, I suspect the 3:73 truck kept it's % of RPM closer to peak HP.

This is a prime example of gears not making HP. In fact, as I have stated in the past, it's (slightly) the opposite.

With the car I drive right now we went from a 4:11 gear to a 3:73 gear and the ET got slightly quicker and the MPH went way up. We improved the HP slightly and the ET showed it.

Race cars and modern day trucks are far, far apart in technology..

You have to own a 6.2 to fully understand as to why the race between 3.73 and 4.30 outcome was not as folks would expect..

You see, the 6.2 engine management has a very aggressive computer program called traction assist.

Traction assist throttles back the engine automatically to prevent you from breaking traction..

Traction assist also does not open the throttle quickly below 2K RPM which also results in a bit slower acceleration at low speed..

I would bet that there are different throttle curves for the two different axle ratios on top of that.

4.30 ratio is far easier to break traction than 3.73 so unless they intentionally TURN OFF the traction assist (traction assist is AUTOMATICALLY ENABLED ON EVERY START) I can easily see how the 4.30 ratio would turn in slightly slower times..

Don't confuse torque management with Fords Flintstone like traction control. TC only activates once wheel spin is detected...and usually not for a good bit after the wheels are spinning.

Gdetrailer wrote:

Turtle n Peeps wrote:

4x4ord wrote:
My guess is that the 4.30 made 1 more shift getting up to 60 mph .... so third gear where as the 3.73 would make it to 60 mph in 2nd. That would be a big advantage for the 3.73 as it would be running close to maximum horsepower as it approached 60 mph instead of loosing time to shift and then running at a lower horsepower rpm as it approached the 60 mph mark.


And it could be a similar thing in the 1/4 mile.

Winner, winner chicken diner!

To make a very complex explanation as short as I can:

Lets say an engine makes it's peak HP at 7,000 RPM. The closer I can keep that vehicle at 7,000 RPM for a given race, the quicker that vehicle is going to be.

To get the best time out of their cars racers actually over rev their engines slightly to do this.

EX: Again using the 7000K peak HP engine: An engine that is shifted at 7,200 RPM which drops back to 6,500 will be quicker than an engine shifted at 7,000K and drops back to 6,300K.

As 4x4 has alluded to, I suspect the 4:30 geared truck was caught in between two gears. If one did the math, I suspect the 3:73 truck kept it's % of RPM closer to peak HP.

This is a prime example of gears not making HP. In fact, as I have stated in the past, it's (slightly) the opposite.

With the car I drive right now we went from a 4:11 gear to a 3:73 gear and the ET got slightly quicker and the MPH went way up. We improved the HP slightly and the ET showed it.

Race cars and modern day trucks are far, far apart in technology..

You have to own a 6.2 to fully understand as to why the race between 3.73 and 4.30 outcome was not as folks would expect..

You see, the 6.2 engine management has a very aggressive computer program called traction assist.

Traction assist throttles back the engine automatically to prevent you from breaking traction..

Traction assist also does not open the throttle quickly below 2K RPM which also results in a bit slower acceleration at low speed..

I would bet that there are different throttle curves for the two different axle ratios on top of that.

4.30 ratio is far easier to break traction than 3.73 so unless they intentionally TURN OFF the traction assist (traction assist is AUTOMATICALLY ENABLED ON EVERY START) I can easily see how the 4.30 ratio would turn in slightly slower times..

Turtle n Peeps wrote:

4x4ord wrote:
My guess is that the 4.30 made 1 more shift getting up to 60 mph .... so third gear where as the 3.73 would make it to 60 mph in 2nd. That would be a big advantage for the 3.73 as it would be running close to maximum horsepower as it approached 60 mph instead of loosing time to shift and then running at a lower horsepower rpm as it approached the 60 mph mark.


And it could be a similar thing in the 1/4 mile.

Winner, winner chicken diner!

To make a very complex explanation as short as I can:

Lets say an engine makes it's peak HP at 7,000 RPM. The closer I can keep that vehicle at 7,000 RPM for a given race, the quicker that vehicle is going to be.

To get the best time out of their cars racers actually over rev their engines slightly to do this.

EX: Again using the 7000K peak HP engine: An engine that is shifted at 7,200 RPM which drops back to 6,500 will be quicker than an engine shifted at 7,000K and drops back to 6,300K.

As 4x4 has alluded to, I suspect the 4:30 geared truck was caught in between two gears. If one did the math, I suspect the 3:73 truck kept it's % of RPM closer to peak HP.

This is a prime example of gears not making HP. In fact, as I have stated in the past, it's (slightly) the opposite.

With the car I drive right now we went from a 4:11 gear to a 3:73 gear and the ET got slightly quicker and the MPH went way up. We improved the HP slightly and the ET showed it.

4x4ord wrote:
My guess is that the 4.30 made 1 more shift getting up to 60 mph .... so third gear where as the 3.73 would make it to 60 mph in 2nd. That would be a big advantage for the 3.73 as it would be running close to maximum horsepower as it approached 60 mph instead of loosing time to shift and then running at a lower horsepower rpm as it approached the 60 mph mark.


And it could be a similar thing in the 1/4 mile.