Title of article
Analysis of Rake Angle Effect to Stress Distribution on Excavator Bucket Teeth Using Finite Element Method
Author/Authors
Suryo ، Hadi Department of Mechanical Engineering - Diponegoro University , Bayuseno ، A. P. Department of Mechanical Engineering - University of Diponegoro , Jamari ، J. Department of Mechanical Engineering - University of Diponegoro , Wahyudi ، A. Imam Department of Mechanical Engineering - University of Diponegoro
Pages
13
From page
1222
To page
1234
Abstract
Excavator is mostly used for mining and construction. This heavy equipment, widely known as a backhoe, is a digging machine commonly used for dredging the mining materials, digging and leveling the soil, dredging the river, removing the road and demolition. Excavator has bucket teeth, component that frequently undergoes a change. The replacement of bucket teeth is performed due to its low usage time and many failure experiences such as wear, bend, crack and facture during the use. To prevent the occurrence of the failures, a structural analysis on bucket teeth is necessarily conducted. The analysis was conducted to find the stress distribution on bucket teeth from the rake angle effect during the excavation. The analysis was performed using finite element method by static loading and twodimensional modeling to determine digging and resistive force in bucket teeth. Based on the analysis, it was obtained the stress distribution and maximum value of von misses occurring in the bucket teeth from the rake angle effect. The maximum stress, obtained from the analysis results, was then compared to the allowable stress of the bucket teeth material. The results showed that the materials used were in safe limits and had small potential for experiencing failure as well.
Keywords
Bucket Teeth , Excavator , Failure , Rake Angle
Journal title
Civil Engineering Journal
Serial Year
2017
Journal title
Civil Engineering Journal
Record number
2486589
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