ROOT CAUSE ANALYSIS OF SPALL AND CRACK ON THE COACH WHEEL USED BY PT. KERETA API (PERSERO)

ROOT CAUSE ANALYSIS OF SPALL AND CRACK ON THE COACH WHEEL USED BY PT. KERETA API (PERSERO)

One of the main means of transportation for the land route is a train. The railway operations may be disrupted in the event of damage or failure of the train components. One of the train components that often damaged are the wheels. From the data, it was found two types of dominant damage mode, spal...

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Main Author: DELANIS SEMBIRING (NIM : 231 08 013); Pembimbing : Prof. Dr. Ir. IGN. Wiratmaja Puja; Dr. Ir, HARSA
Format: Theses
Language:Indonesia
Online Access:https://digilib.itb.ac.id/gdl/view/15865
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:15865
spelling id-itb.:158652017-09-27T14:53:50ZROOT CAUSE ANALYSIS OF SPALL AND CRACK ON THE COACH WHEEL USED BY PT. KERETA API (PERSERO) DELANIS SEMBIRING (NIM : 231 08 013); Pembimbing : Prof. Dr. Ir. IGN. Wiratmaja Puja; Dr. Ir, HARSA Indonesia Theses INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/15865 One of the main means of transportation for the land route is a train. The railway operations may be disrupted in the event of damage or failure of the train components. One of the train components that often damaged are the wheels. From the data, it was found two types of dominant damage mode, spall and crack defects on the surface of the wheel. Spall on the surface of the wheel results an excessive vibration, thereby reducing passenger comfort when using the train. <br /> <br /> <br /> Root cause analysis of spall and crack on the coach wheel has been performed to determine the wheel failure mode that happens and also to explore the source of the wheels damage so the proper care and prevention can be taken for the case of subsequent damage. <br /> <br /> <br /> This study was conducted by collecting data of the spalls and cracks failure of wheels in the field and laboratory test. To complete the analysis, the braking simulation by analytic methods and also investigate the static wheel loading with elements modeling using ANSYS Multiphysics software. <br /> <br /> <br /> The results of the analysis explains that the wheel failure mode is overlap ellipse-shaped defects with the same pattern direction, developed into a spall with crack and in certain conditions can develop into flat wheel. Static modeling of the wheel showed the contact stress that was occur is 904,551 MPa, below the wheel strength (about 1000 MPa). Through the observation of micro structure during the test showed that there had been changes in the micro structure of the wheel into martensite due to excessive temperature, mean temperature of the wheel has been reached 800oC. Martensite structure is formed by the heat that comes when the wheel friction with composite brake blocks and the wheels slide on the rail, followed by rapid cooling that occurred repeatedly. According to the graph resulting from braking simulation, skidding was happen when the friction coefficient of the brake block is 0,24 and static friction coefficient between wheel and rail is 0,15. <br /> <br /> <br /> Martensitic structure of the wheel surface is brittle and easily chip-off, and vulnerable to fracture because of the low ductility. Spall defects that occur in the wheels are always accompanied by a subtle crack at the bottom. Cracks that occur at the edge of the wheel were caused by the heating effect experienced by wheel. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
description One of the main means of transportation for the land route is a train. The railway operations may be disrupted in the event of damage or failure of the train components. One of the train components that often damaged are the wheels. From the data, it was found two types of dominant damage mode, spall and crack defects on the surface of the wheel. Spall on the surface of the wheel results an excessive vibration, thereby reducing passenger comfort when using the train. <br /> <br /> <br /> Root cause analysis of spall and crack on the coach wheel has been performed to determine the wheel failure mode that happens and also to explore the source of the wheels damage so the proper care and prevention can be taken for the case of subsequent damage. <br /> <br /> <br /> This study was conducted by collecting data of the spalls and cracks failure of wheels in the field and laboratory test. To complete the analysis, the braking simulation by analytic methods and also investigate the static wheel loading with elements modeling using ANSYS Multiphysics software. <br /> <br /> <br /> The results of the analysis explains that the wheel failure mode is overlap ellipse-shaped defects with the same pattern direction, developed into a spall with crack and in certain conditions can develop into flat wheel. Static modeling of the wheel showed the contact stress that was occur is 904,551 MPa, below the wheel strength (about 1000 MPa). Through the observation of micro structure during the test showed that there had been changes in the micro structure of the wheel into martensite due to excessive temperature, mean temperature of the wheel has been reached 800oC. Martensite structure is formed by the heat that comes when the wheel friction with composite brake blocks and the wheels slide on the rail, followed by rapid cooling that occurred repeatedly. According to the graph resulting from braking simulation, skidding was happen when the friction coefficient of the brake block is 0,24 and static friction coefficient between wheel and rail is 0,15. <br /> <br /> <br /> Martensitic structure of the wheel surface is brittle and easily chip-off, and vulnerable to fracture because of the low ductility. Spall defects that occur in the wheels are always accompanied by a subtle crack at the bottom. Cracks that occur at the edge of the wheel were caused by the heating effect experienced by wheel.
format Theses
author DELANIS SEMBIRING (NIM : 231 08 013); Pembimbing : Prof. Dr. Ir. IGN. Wiratmaja Puja; Dr. Ir, HARSA
spellingShingle DELANIS SEMBIRING (NIM : 231 08 013); Pembimbing : Prof. Dr. Ir. IGN. Wiratmaja Puja; Dr. Ir, HARSA
ROOT CAUSE ANALYSIS OF SPALL AND CRACK ON THE COACH WHEEL USED BY PT. KERETA API (PERSERO)
author_facet DELANIS SEMBIRING (NIM : 231 08 013); Pembimbing : Prof. Dr. Ir. IGN. Wiratmaja Puja; Dr. Ir, HARSA
author_sort DELANIS SEMBIRING (NIM : 231 08 013); Pembimbing : Prof. Dr. Ir. IGN. Wiratmaja Puja; Dr. Ir, HARSA
title ROOT CAUSE ANALYSIS OF SPALL AND CRACK ON THE COACH WHEEL USED BY PT. KERETA API (PERSERO)
title_short ROOT CAUSE ANALYSIS OF SPALL AND CRACK ON THE COACH WHEEL USED BY PT. KERETA API (PERSERO)
title_full ROOT CAUSE ANALYSIS OF SPALL AND CRACK ON THE COACH WHEEL USED BY PT. KERETA API (PERSERO)
title_fullStr ROOT CAUSE ANALYSIS OF SPALL AND CRACK ON THE COACH WHEEL USED BY PT. KERETA API (PERSERO)
title_full_unstemmed ROOT CAUSE ANALYSIS OF SPALL AND CRACK ON THE COACH WHEEL USED BY PT. KERETA API (PERSERO)
title_sort root cause analysis of spall and crack on the coach wheel used by pt. kereta api (persero)
url https://digilib.itb.ac.id/gdl/view/15865
_version_ 1820737565841424384

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