Each of the systems has been studied and developed to meet the safety requirements. Instead of having air bag, good suspension systems, good handling and safe curves, there is a more critical system in the vehicle that is brake systems. No brake system in the vehicle will put a passenger in an unsafe position. Therefore, it is mandatory for all vehicles to have a proper braking system. In this work brake disc material ceramic carbon matrix and steel material to calculate the normal force, shear force and braking torque. And also calculate the brake distance of the disc brake. The standard disc brake (four) wheels used in Ansys and static structural analysis also calculates the deflection of the brake model.
This is important to understand the force of action and frictional force in the new disc brake material, how the disc brake works more efficiently, which can help reduce the accident that can happen in each day. Brakes are the most important safety parts in vehicles. Brakes operate to retard and stop wheel rotation. To stop the wheel, the brake pads are mechanically forced against the rotor disc on both surfaces. Increases in travel speeds as well as increased weight of cars have made these improvements essential. An effective braking system is needed to carry out this task with a difficult term in which the material needs to be lighter than before and the performance of the brakes must be improved. Today's cars often use a combination of disc brakes and drum brakes. However, the effectiveness of the braking system depends on the design itself and also on the correct selection of the material.