Surface Profiles Acquisition for Assessing Fatigues Life of Agricultural Machinery in Test Facilities

Publication Type

Contribution to conference

Authors

D.S. Paraforos, H.W. Griepentrog

Year of publication

2014

Conference name

The 18th International ISTVS Conference

Conference location

Seoul, Korea

Conference date

September 22-25, 2014

Assessing fatigue life of agricultural machinery can be a challenging task, especially when the machines assume dif-ferent configurations and move on varied terrain types. The main objective of this paper is to present the methodology of making an up-to-date comparison between real life use of agricultural machinery and use in test facilities regarding sur-face profiles and accumulated fatigue damage. Towards this aim, a number of strain gages were attached at critical points on a four-rotor swather. Measurements were acquired under all possible modes of the machine operation. Using the rainflow cycle counting algorithm in combination with Palmgren-Miner linear damage rule, the accumulated fatigue damage was evaluated at every use of the swather. In order to measure the absolute position surface profiles a sensor-frame was developed utilising an RTK-GPS, an Inertial Measurement Unit (IMU) and two laser pointers. An Extended Kalman Filter (EKF) algorithm was used to fuse GPS and IMU data. The surface profiles were modelled using the Pow-er Spectral Density (PSD) of a Gaussian model. Results indicated that this is a valid methodology to quantify vehicle’s accumulated damage on test tracks in respect to real life but Gaussian road models were insufficient to model surfaces with high irregularities.