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The main objective is comparative study of pistons made of different materials by using Finite Element Method (FEM) and find out the maximum mechanical and thermal stress, fatigue strength acting on the piston by attempting structural and transient thermal analysis.Here the life of the piston improves by means of introducing a new composite matrix like aluminum alloy with particulates of silicon carbide which has the maximum wear factor.The parameters used for the solid modeling and simulation are operating gas pressure, temperature and material properties of piston.The specifications used for…mehr

Produktbeschreibung
The main objective is comparative study of pistons made of different materials by using Finite Element Method (FEM) and find out the maximum mechanical and thermal stress, fatigue strength acting on the piston by attempting structural and transient thermal analysis.Here the life of the piston improves by means of introducing a new composite matrix like aluminum alloy with particulates of silicon carbide which has the maximum wear factor.The parameters used for the solid modeling and simulation are operating gas pressure, temperature and material properties of piston.The specifications used for the study of these pistons belong to four stroke single cylinder engine of Bajaj Pulsar 220 cFor solid modeling we are using CATIA, for meshing hyper mesh and Ansys 18.0 use as a solver.
Autorenporträt
Y. Zamsheed Ahammad PG Scholar in GATES IT Gooty, with Machine Design Specialization. B.Anjaneyulu, Assistant Professor in Dept.of ME, GATESIT, Gooty. His published more than 30 Research papers in reputed journals and acting as a reviewer for SCI and SCOPUS Journals. His research area is ceramic composite materials.