Modelling and analysis of Disk Brake under Tribological behaviour of Al-Al2O3 Ceramic Matrix Composites/Kevlar® 119 composite/C/Sic-Carbon Matrix Composite/Cr-Ni-Mo-V steel

Abstract

Abstract In upcoming trends of industrial needs the improvement of highly strong material, thermal and mechanically sustainable property of materials are upgrading in current generations. To reach the demands of the industrial scenario the friction, wear and other tribo-ability of various materials has been investigated. This paper presents on the effects of tribological behavior of disk brake-materials in comparison to polymer composites. Aluminum matrix composites with Al2O3 reinforcements give predominant mechanical and physical properties. Al-Al2O3 Ceramics has wider applications in a various fields such as vehicle, aviation, military equipment and other applications. Kevlar is a thermo- safe and solid manufactured fiber, identified with different Aramids, Kevlar-119 has higher elongation capacity, adaptable weariness resistant, yarn types found in mechanical elastic products such as tires, hoses and other wide and larger productivity of applications are utilized, it achieves an excellence of thermal and other properties. A carbon-Ceramic is a subgroup of Ceramics which offers excellent braking performance, which withstand high temperature and very light weight material. This makes tempting filler for manufacturing strong matrices of ceramics and wear well over the time. These are made from Carbon-fillers and these results in high-performance driving. Ni-Cr-Mo-V steel has carbon compound steels with its highly excellent in erosion braking properties and minimal in cost compared with other CMC’s .In recent year’s comparatively minimum attention have been focused in this concepts. This paper states the art of Tribo-behavior of disk brake materials. In future, this paper helps the researchers to identify the influence on the mechanical properties of composite and the study in tribological behavioral of material investigations.