ANALISIS KEGAGALAN SPHERICAL ROLLER BEARING PADA ROLL TABLE CONTINUOUS CASTING MACHINE

Abstract

Abstract – Failure on the bearing will cause a reduction in system accuracy, increased amplitude
vibration or even failure on engine performance and produce unexpected consequences.In carrying
out the analysis, the research method used in this study is an experimental quantitative research
method that is by simulating a spherical roller bearing model in ANSYS software to carry out stress
distribution analysis, deformation distribution and gravity load simulation that occur using static
structural and Transient Simulation .From the results of static analysis using Static structural results
in Annealed state, the maximum stress value is 4.8475 MPa, the total deformation value is 0.0001864
mm and the force reaction value is 878.599 N. While the static calculation results of calculating in
Annealed state, the maximum value is obtained. stress is 5,343 MPa, total deformation value is
0,000112 mm and force reaction value is 878,599 N and the results of dynamic analysis using
Transient dynamic in Annealed state obtained maximum stress value of 8,1951 MPa, total
deformation value of 14,688 mm and force reaction value 6.31 x 10-7 N.