Wheel Alignment Explained

Wheel Alignment

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The term "wheel alignment" refers to all the elements that make your car go straight. It involves three main measurements: caster, camber, and toe. If you hit a massive pothole and bump your suspension out of alignment, the carefully calculated specifications to which the components were set are no longer in effect. To realign your car, a technician will uses standard measurements as targets for adjustment.

Most modern cars have adjustments only for toe. Caster and camber were rendered unnecessary by the McPherson strut, which began to be widely adopted in the 1960s.

Caster

Setting wheel alignment caster.
Setting wheel alignment caster.

ThoughtCo

Caster is the tilting of the uppermost point of the steering axis either forward or backward when viewed from the side of the vehicle. A backward tilt is positive; a forward tilt is negative. Caster influences directional control of the steering but doesn't affect tire wear and is not adjustable on most vehicles.

Caster is affected by vehicle height, so it is important to keep the body at its designed height. An overloaded vehicle or one with a weak or sagging rear spring will affect caster. When the rear of the vehicle is lower than its designated trim height, the front suspension moves to a more positive caster. If the rear is higher than its designated trim height, the front suspension moves to a less positive caster.

Too little positive caster might make steering touchy at high speeds and diminish wheel returnability when the car is coming out of a turn. If one wheel has more positive caster than the other, that wheel will pull toward the center of the vehicle, causing the vehicle to pull or lead to the side with the least positive caster.

Camber

Wheel alignment: Camber
Wheel alignment: Camber.

ThoughtCo

Camber is the tilting of the wheels from the vertical when viewed from the front of the vehicle. When wheels tilt outward at the top, the camber is positive; when wheels tilt inward at the top, the camber is negative. The amount of tilt is measured in degrees from the vertical. Camber settings influence directional control and tire wear.

Too much positive camber will result in premature wear on the outside of the tire and excessive wear on the suspension parts. Too much negative camber will result in premature wear on the inside of the tire as well as excessive wear on the suspension parts.

An unequal side-to-side camber of 1° or more will cause the vehicle to pull or lead to the side with the most positive camber.

Toe

Toe is a measurement of how much the wheels are turned in or out from a straight-ahead position. When the wheels are turned in, toe is positive; when the wheels are turned out, toe is negative. The actual amount of toe is normally only a fraction of a degree. The purpose of toe is to ensure that the wheels roll parallel.

Toe also serves to offset the small deflections of the wheel support system that occur when the vehicle is rolling forward. In other words, with the vehicle standing still and the wheels set with toe-in, the wheels tend to roll parallel on the road when the vehicle is moving. Improper toe adjustment will cause premature tire wear and steering instability.

Thrust Angle, Included Angle, and Steering Axis Inclination

The thrust angle is the angle between the thrust line and centerline. If the thrust line is to the right of the centerline, the angle is said to be positive; if the thrust line is to the left of center, the angle is negative. It is caused by rear wheel or axle misalignment and causes the steering to pull or lead to one side or the other. It is the primary cause of an off-center or crooked steering wheel. Correcting rear axle or toe alignment is necessary to eliminate the thrust angle. If that isn't possible, using the thrust angle as a reference line for aligning front toe can restore center steering.

The included angle is the sum of the camber and steering axis inclination (SAI) angles in a front suspension. This angle is measured indirectly and is used primarily to diagnose bent suspension parts such as spindles and struts.

The SAI is the angle formed by a line running through the upper and lower steering pivots with respect to vertical. On a short-long arm (SLA) suspension, the line runs through the upper and lower ball joints. On a MacPherson strut suspension, the line runs through the lower ball joint and upper strut mount or bearing plate.

Viewed from the front, SAI is also the inward tilt of the steering axis. Like caster, it provides directional stability but reduces steering effort by reducing the scrub radius. SAI is a built-in, nonadjustable angle and is used with camber and the included angle to diagnose bent spindles and struts and mislocated cross members.

Kingpin, Setback, and Ride Height

The kingpin offset/scrub radius is the distance from the center of the wheel contact face to the intersection point of the kingpin extension. The line through the center point of the spring strut support bearing and the control arm ball joint corresponds to the kingpin. The scrub radius is influenced by camber, kingpin angle, and wheel offset of the wheel rim. This is set at the factory and is not adjustable.

Setback is the amount by which one front wheel is farther back from the front of the vehicle than the other. It is also the angle formed by a line perpendicular to the axle centerline with respect to the vehicle's centerline. If the left wheel is farther back than the right, ​setback is negative; if the right wheel is farther back than the left, ​setback is positive. Setback should usually be zero to less than half a degree, but some vehicles have asymmetrical suspensions by design.

Setback is measured with both wheels straight ahead and is used as a diagnostic angle along with caster to identify chassis misalignment or collision damage. The presence of setback can also cause differences in toe-out on turn angle readings side-to-side.

Ride height is the distance between a specified point on the chassis, suspension, or body and the ground. Measuring ride height is an indirect method of determining spring height, which is important because it affects camber, caster, and toe. Low ride height indicates weak or sagging springs. Ride height should be within specifications before the wheels are aligned.