DESIGN AND ANALYSIS ON AUTOMATIC DISC BRAKING SYSTEM

Abstract

A brake is a mechanical device which inhibits motion. A disc brake is a brake that uses friction caused by
a set of pads that press against a rotating disc-shaped part called a disc. The brake is a critical component that
experiences high temperatures and develop thermal stresses during application of brakes. In addition, the
application of shoe pressure gives rise to mechanical loads. Brakes in cars and trucks are safety parts.
Requirements not only in performance but also in comfort, serviceability and working lifetime are high and rising;
i.e. the brake pad with the friction material, the counter body and caliper, can be modeled. When the brake is
applied repeatedly the brake pad undergoes critical designs to determination that is carried out. In this thesis, focus
is on the design of the disc brake and its components. As perform solid-mechanical calculations, and a design, and
experimentally investigate the structural analysis integrity of the components. For this project, there are basic
requirements. The requirement is to design of a model. This system is done by modeling software’s like
CatiaV5.Then these models are analyzed in the Ansys software to find out the loads falling on it as part the impact
on the design. In this project work has been taken up on the following aspects to cover the research gaps to present
the results based on the systematic studies