Our suspension helps to keep your tyres firmly in contact with the road to assist braking and road handling.
Shock absorbers smooth out the minor imperfection in the road surface.
Gradual wear of suspension components make it difficult to spot problems.
Your vehicle's suspension system is effectively a complex series of components designed to work together to limit the vibrations and undulations from the road surface, providing a smooth, controlled and comfortable driving experience. Great brakes and tyres need to be in full contact with the road to work most effectively. In fact, at 30mph, worn shock absorbers can add up to 2 metres to your braking distance!
The principle suspension components include a coil spring and shock absorber or dampener as it is sometimes referred to. These components work together to dampen down and cushion the vehicle by absorbing the impact from potholes and other minor imperfections in the road. This keeps your vehicle stable and your tyres firmly in contact with the road surface for the maximum amount of time. Maintaining a healthy vehicle suspension system is vital if you are to gain the optimum comfort, stability and handling characteristics from your vehicle.
It is not always obvious that a problem in your vehicle suspension system is present. This is generally due to a gradual loss of performance in the principle suspension parts and because this happens over time a motorist may not always feel the gradual decrease in suspension performance.
Some tell tale signs that may suggest your suspension is in need some attention
• Knocking noises
• Rattling noises
• Squeaking noises
• Misalignment of the steering wheel
• Car pulling/veering to one side
If you have experienced one or more of these symptoms or you would like your vehicles suspension to be checked over, BrakeTech offers a free no obligation suspension check. We can attend your vehicle at home, work or at your leisure and identify any problems.
To book an appointment phone 07444 006 852 or 01204 888 452, or complete the form below: