MODELING, DESIGN & ANALYSIS OF DIFFERENTIAL GEAR BOX AND ITS HOUSING THROUGH FEM, SOLIDWORK & ANSYS BENCHWORK 14.0

In this paper the differential gears assembly and its housing are analyzed for the vibrational effect on a system in which the life of the gears is detrmined within different frequency range in the platform of Ansys-14.0 with use of solidworks modeling . In this type of analysis the gear housing is also effected by vibration in casing that surrounds the gear box. The main objective of gear is to protect and to provide a safe platform to get good gear transmission. It is also gives a supports for moving parts and protected it from outside condition. The differential couples and the propeller shaft on the pinion, which is runs on the ring gear or crown gear of the differential & it is also helps as the reduction in gearing friction. And enhance the life of the gear. Hence will subjected to vibration so it becomes compalsary to calculate the response of differential gear housing in different vibration conditions and it is also finding there natural frequencies. This can be most important tool in designing the differential gear housing free from fatigue failures caused by the resonance. The design of the gear housing should be appropiate a methodology for allocated with factors causing vibrations and to promote scientific means and to minimize the effects of frequencies. This vibration analysis is done by using ANSYS 14.0 software as a computational technique and validation and the modeling of differential gear box is done by using of SOLIDWORKS.