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Suspension & Steering Service | COLUMBUS

OHIO Owned & Operated  CERTIFIED Mechanics
OHIO Owned & Operated

CERTIFIED Mechanics

Suspension & Steering Services | COLUMBUS

For your next auto steering and suspension service repair, call your Ohio Autocare Columbus Service Shop. Our trained and certified auto mechanics have extensive experience with virtually all makes and models of cars, trucks, minivans, commercial fleet vehicles and more.

A lot of mechanics are at work when turning your steering wheel. The power steering systems of today’s cars are made up of dozens of components that are lubricated by a hydraulic fuel that decreases the amount of effort required to turn the steering wheel. A failure in any of these components can lead to a significant safety issue. Common symptoms of degrading steering components include shaking in the steering wheel, the car pulling to one side while driving, or any squeaking or grinding noises can be indicative of a failing steering system.

While the steering system provides direction control, its connected with the suspension system of your vehicle which provides a smoother ride, but also properly distributes the vehicle weight to safely stabilize the vehicle while driving.

Call your Ohio Autocare Columbus when your steering and suspension needs service. Our trained, certified and experienced mechanics can diagnose the issues quickly and get you back on the road.

SCHEDULE Suspension & Steering Services

For Suspension & Steering Service & Repair in Columbus near the Eastland Mall area, Call 614-486-4863

Or click the auto shop below for our convenient online scheduling app.

Automobile Suspension Systems

Auto manufacturers know passenger comfort can be as important to buyers as performance and reliability. From Bluetooth to butt warmers, drivers like their rides to be comfy. Often these accessories can gather more attention than the main comfort system of your vehicle, the suspension system.

Your car’s suspension system is a delicate balance of modern engineering that separates the cabin, engine, and undercarriage from the tires and axels. The flexibility of the rubber tires, themselves, play a small part in the suspension system by absorbing smaller impacts. For larger impacts, the suspension system absorbs and dissipates the bumps and jolts in the road for a smooth ride and enhanced safety and control.

Depending on the age of your car, it may have a Dependent or Independent suspension system. Dependent suspension systems connect the two (or more) wheels through the axle and are more common on older vehicles. Modern vehicles have Independent suspensions installed that operate separately of each other which is better at keeping the tires on the road while also minimizing roll-over. Upon impacting a sudden rise or fall on the surface, the Springs also force the wheels down on the surface after the vertical response of the tires to the impact.

COIL SUSPENSION SPRINGS

One of the most prominent and recognizable components of a suspension system is the Springs. Depending on the vehicle type, each of the Springs may be separate from the shock absorber or coiled around it. The suspension Springs absorb some of the impacts while also supporting the weight of everything that is not directly associated with the wheels and axels. Virtually all modern vehicles use Coil Suspension Springs that actually looks like a thick-gauged spring.

Suspension springs can be “loose” or “tight”. Performance and racing cars prefer tight springs for greater control on turns, sacrificing comfort. Most other vehicles have loose suspension springs which provide a smoother ride for passengers and cargo.

LEAF SUSPENSION SPRINGS

Prior to Coil Suspension Springs, automobiles were manufactured with Leaf Suspension Springs which were originally equipped on horse carriages in the mid 18th century. Not appearing too spring-like, Leaf Springs are variable lengths of thick gauge steel straps stacked on top of each other, although thick wood straps weren’t uncommon on smaller horse carriages. Leaf Suspension Springs can still be seen today on older cars and larger cargo trucks and vans.

SHOCKS ABSORBERS

Once the springs have absorbed the energy of the impact, that energy must be transferred or the vehicle will continue to bounce on the springs vertically from the axels. This is the function of the shock absorbers. A shock absorber is a long piston which is filled with hydraulic fluid and a gas, commonly nitrogen. As the shock absorber accepts the impact, it transfers the impact energy to the hydraulic fluid in the form of heat by forcing the piston head up into the chamber which compresses and heats the fluid and gas.

STRUTS

Some vehicles, commonly front wheel drives, may have struts instead of shock absorbers. Struts combine shock absorbers with a coil spring wrapped around it. This requires less space than if the components are separate.

Automobile Suspension Systems

Auto manufacturers know passenger comfort can be as important to buyers as performance and reliability. From Bluetooth to butt warmers, drivers like their rides to be comfy. Often these accessories can gather more attention than the main comfort system of your vehicle, the suspension system. Your car’s suspension system is a delicate balance of modern engineering that separates the cabin, engine, and undercarriage from the tires and axels. The flexibility of the rubber tires, themselves, play a small part in the suspension system by absorbing smaller impacts. For larger impacts, the suspension system absorbs and dissipates the bumps and jolts in the road for a smooth ride and enhanced safety and control. Depending on the age of your car, it may have a Dependent or Independent suspension system. Dependent suspension systems connect the two (or more) wheels through the axle and are more common on older vehicles. Modern vehicles have Independent suspensions installed that operate separately of each other which is better at keeping the tires on the road while also minimizing roll-over. Upon impacting a sudden rise or fall on the surface, the Springs also force the wheels down on the surface after the vertical response of the tires to the impact.

COIL SUSPENSION SPRINGS

One of the most prominent and recognizable components of a suspension system is the Springs. Depending on the vehicle type, each of the Springs may be separate from the shock absorber or coiled around it. The suspension Springs absorb some of the impacts while also supporting the weight of everything that is not directly associated with the wheels and axels. Virtually all modern vehicles use Coil Suspension Springs that actually looks like a thick-gauged spring. Suspension springs can be “loose” or “tight”. Performance and racing cars prefer tight springs for greater control on turns, sacrificing comfort. Most other vehicles have loose suspension springs which provide a smoother ride for passengers and cargo.

LEAF SUSPENSION SPRINGS

Prior to Coil Suspension Springs, automobiles were manufactured with Leaf Suspension Springs which were originally equipped on horse carriages in the mid 18th century. Not appearing too spring-like, Leaf Springs are variable lengths of thick gauge steel straps stacked on top of each other, although thick wood straps weren’t uncommon on smaller horse carriages. Leaf Suspension Springs can still be seen today on older cars and larger cargo trucks and vans.

SHOCK ABSORBERS

Once the springs have absorbed the energy of the impact, that energy must be transferred or the vehicle will continue to bounce on the springs vertically from the axels. This is the function of the shock absorbers. A shock absorber is a long piston which is filled with hydraulic fluid and a gas, commonly nitrogen. As the shock absorber accepts the impact, it transfers the impact energy to the hydraulic fluid in the form of heat by forcing the piston head up into the chamber which compresses and heats the fluid and gas.

STRUTS

Some vehicles, commonly front wheel drives, may have struts instead of shock absorbers. Struts combine shock absorbers with a coil spring wrapped around it. This requires less space than if the components are separate.