FATIGUE ANALYSIS OF 13 TON AMPHIBIOUS EXCAVATOR'S TRANSMISSION SHAFT
This thesis is part of a machine element design engineering research which aims to apply theoretical fatigue analysis and the finite element method to estimate the service life of the driveshaft components of a 13 ton amphibious excavator. The research begins by examining the prototype of the sha...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/71140 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | This thesis is part of a machine element design engineering research which aims to apply
theoretical fatigue analysis and the finite element method to estimate the service life of the
driveshaft components of a 13 ton amphibious excavator. The research begins by examining the
prototype of the shaft that has been manufactured in terms of geometry, surface conditions, and
materials. The loading data used as input for this study is an analytical calculation of the workload
of the amphibious excavator unit on the wet soil surface of the Jatiluhur reservoir which is
transmitted to the shoe track, chain and drive shaft. The next stage is to define the loads acting on
the transmission shaft so that an analytical load calculation can be carried out.
Fatigue analysis is done theoretically and numerically. Because the shaft under study has a hollow
shaft geometry, an analysis was carried out using the finite element method on a 3-dimensional
critical section model speciments to validate the value of the stress concentration factor of the
critical cross-section of the shaft.
The final stage of this research is to determine the service life (duty cycle) and safety factor for the
fatigue of the shaft components by using the stress concentration factor data obtained from the
results of the stress concentration factor validation
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