Wheel Alignment refers to the geometrical relationship of the wheels to the vehicle itself, to each other and to the road. Ideally, all four wheels should be aimed straight ahead, parallel to each other, perpendicular to the road and perpendicular to their respective axles. This will produce the least amount of rolling resistance, the least amount of friction, the least amount of tire wear and the greatest traction. The basic alignment angles we’re talking about here are toe, camber and caster.

TOE ALIGNMENT

Toe is the most important wheel alignment angle because it has the greatest effect on tire wear. Toe refers to the parallelism between the wheels as viewed from above and is usually measured in inches or millimeters. When both front wheels are aimed straight ahead and the distance between the leading edges of both front tires is exactly the same as the distance between the trailing edges, the wheels have “zero toe” and are theoretically aligned. We say in theory because toe alignment changes when the vehicle is being driven.

The joints and sockets in the suspension and steering linkage all have a little play, which when added together can allow wheel alignment to change depending on how the steering and suspension are loaded. Likewise, the rubber bushings in the control arms have some compliance and deflect slightly when the vehicle accelerates, brakes, turns and cruises. This too can allow toe alignment to change. To compensate, a little bit of “toe-in” or “toe-out” may be added when the wheels are aligned depending on whether the vehicle has front- or rear-wheel drive.

Toe-in means the front edges of the tires are closer together than the rear edges. Most rear-wheel drive cars and trucks have alignment specifications that call for a little bit of toe-in (say 1/16th of an inch or so). This will produce zero rolling toe as the vehicle is being driven down the road because the natural tendency for the front and rear wheels is to toe-out due to rolling resistance and compliance in the steering and suspension.

Toe-out is when the front edges of the tires are farther apart than the rear edges. This may occur if the tie rod ends are worn, or if the control arm bushings have collapsed. Toe-out is a bad condition to have because it causes the tires to scrub as they roll along. Only 1/8th inch of toe-out will scrub the tires sideways 28 feet for every mile driven. At this rate, it doesn’t take long to wear down the tread.

A classic symptom of toe misalignment is a feathered wear pattern across both front tires. The direction of the feathering tells you if the tires are toed-in or toed-out (rough edges towards the inside signal toe-in while rough edges to the outside indicate toe-out). But on radial tires, toe misalignment tends to roll the shoulder of the tire under as it scrubs producing wear on the inner or outer ribs only. Toe-in will wear the outer rib while toe-out will cause wear on the inner rib. In both instances, wear can be aggravated even more if the tires are underinflated.

Replacing the tires may replace the worn rubber, but it won’t eliminate the tire wear problem. The new tires will suffer the same fate unless the cause of the misalignment is identified and toe is reset to specifications. So anytime the tires show toe wear, toe alignment should be checked to see if it is out of range. Also, the steering should be inspected for worn or bent parts. In addition to checking for loose or worn tie rod ends, look for bent steering arms or tie rods because either can cause toe wear, too.

Strange as it may seem, on some front-wheel drive cars and minivans, a slight amount of toe-out (up to about 1/16th inch) may be specified when aligning the wheels to compensate for toe-in that occurs as the front wheels pull the vehicle down the road. Drive torque more than offsets the compliance in the steering and suspension allowing both front wheels to toe-in slightly when accelerating. This is also what causes “torque steer” (a sudden steering pull) in some FWD cars that have unequal length halfshafts. Under hard acceleration, the left wheel with the shorter halfshaft experiences more toe-in than the right wheel with the longer halfshaft. The result is unequal toe changes and a steering pull to the right. Vehicle manufacturers have reduced or eliminated torque steer in many FWD cars by using equal length halfshafts and/or stiffer control arm bushings.

HOW WORN PARTS AFFECT TOE ALIGNMENT

Worn or loose tie rod ends should always be replaced. But new tie rod ends won’t necessarily cure a tire wear problem unless the tie rods are properly adjusted after the new parts have been installed.

Changing the tie rod ends, tie rods or a steering rack will change the distance between the steering arms, which changes toe. So after the parts have been installed, some type of alignment equipment must be used to measure toe. Then and only then can the tie rods be adjusted to set toe within the vehicle manufacturer’s specifications (always use the specs listed in an alignment reference manual or service manual, never “rule of thumb” settings, because every vehicle is unique).

One old mechanic’s trick when replacing tie rod ends is to count the number of turns it takes to unscrew a tie rod end, then to use the same number of turns when screwing it back on. This only works if the same tie rod end is being reinstalled because the length of the tie rod end and threading may be different on a new part. What’s more, there’s no way to know if the original alignment setting was correct or not. That’s why toe should always be measured and readjusted as needed after parts have been replaced.

Something else to keep in mind about toe is that rear toe is just as important on front toe — especially if a vehicle has an independent rear suspension or rear toe adjustments. This includes most front-wheel drive cars and minivans as well as some rear-wheel drive cars. Rear toe misalignment can cause toe wear on both the front and rear tires by creating a steering pull to one side. Unlike front toe which is self-centering because of the steering linkage, a difference in rear toe angles side-to-side creates something called a “thrust angle.” The result is the same as rear axle misalignment that causes the vehicle to pull or lead to one side.

So how does this cause wear in the front tires? Because we forgot to tell you that front toe changes slightly anytime the wheels are steered to either side. Because the inside wheel follows a shorter arc than the outside wheel, the steering arms are angles slightly so the wheels tow-out with respect to one another when the wheels are turned to one side. The amount of toe-out is only a couple of degrees, but it helps to minimize scuffing and tire wear. If the rear wheels are misaligned, though, and the driver has to constant steer off-center to keep the vehicle going straight, it means the front wheels are constantly toed-out. Over a period of time, this will cause toe wear to appear on the front tires. The cure? Check and realign rear toe as needed.

Rear-wheel drive cars and trucks that do not have independent rear suspensions have fixed rear toe settings, so no adjustments are possible. But on most other vehicles, rear toe can be adjusted either by using factory adjustments (where available) or by installing aftermarket alignment aids such as toe/camber shims, offset bushings, etc.