Wheel balancing, also known as tire balancing, is the process of equalizing the weight of the combined tire and wheel assembly so that it spins smoothly at high speed. Balancing involves putting the wheel/tire assembly on a balancer, which centers the wheel and spins it to determine where the weights should go.
In essence, wheels and tires are never exactly the same weight all around. The wheel's valve stem hole will usually subtract a small amount of weight from that side of the wheel.
Tires will also have slight weight imbalances, whether from a joining point of the cap plies or a slight deviation from perfectly round because that kind of perfection is impossible to achieve. At high speeds, a tiny imbalance in weight can easily become a large imbalance in centrifugal force, causing the wheel/tire assembly to spin with a kind of “galumphing” motion. This usually translates into a vibration in the car as well as some very irregular and damaging wear on the tires.
Traditional Spin Balancing
To balance a wheel and tire assembly, we put it on a balancing machine. There are several ways to manually balance tires, but they frankly do not compare to machine-balancing in terms of either ease or precision. The wheel goes onto the balancer's spindle through the center bore, and a metal cone is inserted to ensure the wheel is perfectly centered. The machine spins the assembly at very high speed to determine the heaviest point and signals the operator where and how many weights to place on the opposite side to compensate.
The most important things to know about balancing are:
Balancing Is Necessary: A weight imbalance in every wheel/tire assembly is pretty much inevitable. Only once in a very blue moon do we see an assembly come out naturally, perfectly balanced, (I always joke that they really should put a flashing light and a bell on the machine for when it happens) and discovering a balance is just as much a function of the machine as discovering an imbalance.
Balance Changes Over Time: As the tire wears, the balance will slowly and dynamically change over time. Most good tire places will want to rebalance when tires are rotated, or when swapping in winter/summer tires for a second season, for example. Rebalancing at least once over the life of the tires will almost certainly extend said lifetime.
Balancing Only Fixes Balance: Balancing will not prevent vibrations from a bent wheel, out of round tire or irregular wear. Balancing weights can't compensate for a problem that is actually physical in nature, they can only compensate for weight differences. As well, one of the first mathematical assumptions the balancer's silicon brain makes is that the wheel and tire are both round to within a certain maximum deviation, so if a wheel is substantially bent, for example, the balancer will probably end up getting the weight placement wrong in the first place.
Road Force Balancing
Because there are those other reasons than just balance for vibrations and strange tire wear, eventually the “Road Force” balancer was born. This style of balancer, in addition to performing a traditional spin balance, also measures both the wheel and tire to determine if there are conditions that would tend to cause a vibration on the road.
Generally, most balancers do this by pressing a large roller against the tire as it spins slowly, reading out tire pressure and radial runout. (i.e. deviation from perfect roundness.) This can detect conditions like belt separations, where the steel belt has been bent and is delaminating from the surrounding layers of rubber, as well as match mounting issues.
Generally, both wheels and tires will have high and low spots in terms of their runout, because as I noted, perfection is impossible. If you can imagine pulling one point of a connected circle (such as the edge of a wheel) just slightly outwards, you can see that some other point of that circle must move inwards to maintain the connection, creating an egg shape. These are high and low spots for radial runout. If you can further imagine putting on a tire such that the high spots for both the wheel and tire match up together, then those high and low spots will add together rather than canceling each other out.
If balanced on a traditional balancer, this assembly will not only require more weight to balance but will still probably cause a vibration.
The solution is to measure both the wheel and tire, and then move the tire around on the wheel until the high spot of the tire matches the low spot of the wheel. This process is usually called “match mounting.” Most tires today have small dots on the sidewall to indicate the point on the tire that should match to the valve stem to get a decent match mount, Road force balancers do a much more precise job of this by measuring both the wheel and tire with rollers and then directing the operator to mark the points to be matched. The resulting assembly requires less weight to balance and spins straighter.
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