Izvorni znanstveni članak
Determination of Service Life of Sintered Powder Metallurgy Gears in Regard to Tooth Bending Fatigue
Srečko Glodež
; University of Maribor Faculty of Mechanical Engineering Smetanova 17 2000 Maribor SLOVENIA
Marko Šori
; University of Maribor Faculty of Mechanical Engineering Smetanova 17 2000 Maribor SLOVENIA
Krešimir Vučković
; University of Zagreb Faculty of Mechanical Engineering and Naval Architecture Ivana Lučića 5 10000 Zagreb CROATIA
Stjepan Risović
; University of Zagreb Faculty of Forestry Svetošimunska cesta 25 10000 Zagreb CROATIA
Sažetak
The aim of this study is to check the possibility of replacing the pinion gear made of structural steel with the one made of sintered material. The pinion is part of the gear pair mounted in front of the gearbox of the skidder Ecotrac 55V to increase the speed and lower torque. In larger series, powder metallurgy (PM) gears are used as a cost-effective alternative for wrought metal gears in a number of industries including the one producing forest products. The present paper discusses the computational and experimental approach for determining the service life of sintered PM gears in regard to tooth bending fatigue. The proposed computational model is based on the stress-life approach, where the stress field in a gear tooth root is determined numerically using finite element method. The needed material data have been taken from the authors’ previous work. Due to the scattering nature of fatigue, the statistic approach has also been considered by presentation of computational results. The experimental procedure was done on a custom made back-to-back gear testing rig. The comparison between computational and experimental results has shown that the proposed computational approach is an appropriate calculation method for estimating the service life of sintered gears regarding tooth root strength. Namely, it has been shown that, in case of proper heat treatment of tested gears, tooth breakage occurred in the interval with 95% probability of failure, which has been determined using the proposed computational model.
Ključne riječi
skidder; service life; sintered powder metallurgy gears; tooth bending fatigue; stresslife approach; back-to-back test rig
Hrčak ID:
193560
URI
Datum izdavanja:
26.1.2018.
Posjeta: 2.274 *