You guys are too funny :scared:
Adding water to the tire adds mass. Mass that rotates and is moving down the road. The brakes have to stop the tire mass and rotating water mass and the extra mass of the water speeding in a straight line (Newton's second law of motion: things in motion tent to want to stay in motion). The result is the mass of water contributes considerable stress and effort to work the brakes or the throttle.
Speed adds to the stopping effort, in an exponential way. Driving twice the speed does not require twice the force to stop, it requires four times the retarding force (F=1/2 Mass * (Velocity squared)). When you run heavy tires and rims it takes four times the work from the brakes to stop, and four times the work to achieve the doubled retardation of speed (more horsepower from the brakes and from the drive-train: why the drag racers go light). This extra effort required, and it exponential relation to speed, is why you will seldom find water (or any fluid in volume) on a vehicle operated at highway speeds (anything above 10 mph).
We see farm tractors (slow off-highway vehicles) run water in tires, and (before 4x4’s became common) old school adventurers ran agriculture tires and water on the back of fenderless Model-T’s and Model-A’s. The extra tire weight helped stability on hills and helped traction, and these adventurers were not in a hurry (the speeds were farm tractor slow). The adventurers who are still alive took it slow, and stayed well below highway speeds when running water in the tires (take the hint and keep it slow if you run water in the tires).
The competition rockcrawlers have applied the same use of water in the tires to control where the weight is loaded on the chassis (lower the total vehicle CG) and help them tune the balance of unsprung weight. It’s a tool to play with the prevent rollovers. If you want to do the same, it’s probably best to have two sets of tires and rims (the highway lightweight set, and the slow crawler set).
What about running water in the tire? There are guys in competition (and posters on the PBB) that have pumped water into tubeless tires. It gets messy, and most knowledgeable farm hands (those who have lived around lightweight tractors) would laugh at the effort. If you want to run water, fit a tube inside the tire and fill the tube with water. If you chunk the tire sidewall, or unseat a bead, the water stays inside the protected tube.
How do you get the water into the tube, and out of the tube? It helps if the rim used has two holes for valve stems: one for the tube stem and one stem for airing up the tire around the tube (just like tubeless tire).
You can pull the valve stem core (the Schraeder valve) and with a few fittings make a hose to fill the tube stem with a garden hose. Vacuum the tube closed, or pressurize it closed (more on this later), open the tap and fill the tube with the line pressure of the water hose. It’s best to do this with the tire on a scale to weigh how much you put into the tire (so you can balance right & left tires). When you get the weight of added water to where you want it, top the tube off with the pressure you want to run (and make sure to remove the valve core for the tire valve-stem).
Fully deflating the tube is one task where the extra valve-stem comes in handy; to deflate the tube by airing up the space between the tire and tube. If you did this first, before adding water to the tube stem, the tube would have been pressed flat from the pressure between the tire and tube. It’s hard to burp the trapped air with the tire mounted on the rim, because placing the tube stem at a high point (to push all the air out of the tube) can be difficult. If you want to really fill the tire fully, you may have to drain and refill from scratch (or go ahead and try to burp the air, for those who have to try).
Draining the water from the tube, how? Inflate the space between the tire and tube (use that handy second valve-stem). Just be careful to keep out of the path of the water jet streaming out of the tube stem, as the trapped water can get fairly rancid after a few weeks or months (or years).
You are now ready to run out and drill that second valve-stem hole in your high dollar rims, with that second set of trail-only ultra-expensive rhino-hide mudlugs, and the cost-is-no-object natural rubber drag race tubes?
Clear as mud? Good luck, and let us know if it’s worth the effort?
arty:
