Plus with an automatic transmission the effective ratio may be lower if the torque converter allows for some slippage. Power transfer wont be as consistent or linear as with a manual trans tho.
I really hope you are right. I think the 54:1 crawl ratio will serve many people well, but for me, a low crawl ratio is one of the most important attributes in an off-road vehicle. I've had vehicles with very low crawl ratios, and vehicles with pretty high crawl ratios. For the type of driving I do, I have a strong preference for the low crawl ratios. Using the brakes during a steep descent (especially in the rocks), really sucks, and can be dangerous.
Having said all that, there are other specs in a vehicle that impact one's speed when descending a steep hill using just engine-braking; these include - but are not limited to - vehicle weight, engine torque, number of cylinders, and overall engine displacement. You'll get much better engine braking with 100:1 crawl ratio and a 6-liter V8 than you will with 150:1 crawl ratio and a 2-liter I4. We tend to use crawl ratio as the main measure of down-hill control, but there are other important factors to achieving a controlled descent.
I know very little about auto-transmissions. I learned to drive on the beach when I was 13 in a 3-speed manual (1968 International Scout); sand will teach you how to use a clutch
I've been driving manuals ever since -
so I am a little out of my depth here - but it is my understanding that a torque converter can allow slippage at low speed, and that this can serve as - roughly - an additional 2:1 reduction (some say it is more like 1.8:1 - but in either case it is quite significant). But apparently, this effect doesn't last very long.
According to Motortrend: "This sounds really great, and it is. But the catch is that this torque multiplication doesn't last very long. The multiplication factor is based on the speed difference between the turbine and impeller. At stall speed, the impeller is spinning at engine rpm and the turbine is stopped. This creates the greatest speed difference between the turbine and the impeller and therefore the maximum torque multiplication. Once the brakes (or the transbrake) is released and the vehicle begins to move, the turbine spins up and the speed difference between the two diminishes."
So now I don't really know what to think about how much a torque converter can actually lower the crawl ratio
Let's say there
is an additional 2:1 reduction; does that mean the effective crawl ratio of the Grenadier is around 100:1? And if so,
why are the wheels locked-up during the hill-descent between 1:20 - 1:27 in the video below? This is a genuine question - I'm not trolling here. Steep descents are really common where I live, and controlled descent is super important to me.
Just for fun, here is a 1968 International Scout:
www.treadmagazine.com
.
. Plus, we're on a different type of trip now (thank you graceful aging) ...
