Data Acquisition and Failure Simulation of Metal Bumper for Heavy Commercial Vehicle 2017-01-0381
This abstract work describes a method of data acquisition and validation procedure followed for a metal bumper used in commercial vehicle application. Covariance is considered as major phenomenon for repeatable measurements in proving ground data acquisition and it is to be maintained less than 0.05. In this project covariance of data acquisition is analyzed before physical simulation of acquired data. In addition to that, multiple testing conditions like uni-axial and bi-axial testing were carried out to attain the failure. PG data is used for bi-axial vibration test and conventional constant spectrum signal (CSD signal) is used for uni-axial vibration test. Target duration for uni-axial test (Z direction) was arrived using pseudo damage calculation. Strain gauges were installed in failure locations to compare PG data and rig data as well as to calculate strain life. Failures were simulated in bi-axial vibration test.
Citation: Karthik, L., Dinesh Kumar, R., Prasanna Kumar, E., and Srinivasa Chandra, V., "Data Acquisition and Failure Simulation of Metal Bumper for Heavy Commercial Vehicle," SAE Technical Paper 2017-01-0381, 2017, https://doi.org/10.4271/2017-01-0381. Download Citation
L. Karthik, R. Dinesh Kumar, E. Prasanna Kumar, V. Srinivasa Chandra