Static and Dynamic Stress Analysis of Working Equipment Excavator Backhoe type class 19 ton

Static and Dynamic Stress Analysis of Working Equipment Excavator Backhoe type class 19 ton

Excavator is a heavy equipment that has primary function to dig and move <br /> <br /> material. One of the part in excavator is working equipment, which consists of <br /> <br /> arm, boom and bucket. Bucket is one of component that is often damaged such <br /> <br...

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Bibliographic Details
Main Author: MARTANTO (NIM : 13113115), RIKO
Format: Final Project
Language:Indonesia
Online Access:https://digilib.itb.ac.id/gdl/view/23991
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Institution: Institut Teknologi Bandung
Language: Indonesia
Description
Summary:Excavator is a heavy equipment that has primary function to dig and move <br /> <br /> material. One of the part in excavator is working equipment, which consists of <br /> <br /> arm, boom and bucket. Bucket is one of component that is often damaged such <br /> <br /> as crack and wear. In product development process, a heavy equipment <br /> <br /> manufacturing company in Indonesia uses static analisis FEM with dynamic <br /> <br /> force as the input to simulate the impact load. <br /> <br /> In this final project, the author uses FEM of static and dynamic load to simulate <br /> <br /> impact load. With the increasing of accuracy of modeling in dynamic load <br /> <br /> simulation, it’s expected to increase the speed of product development process. <br /> <br /> From FEM static load case, the critical location is located on the area around <br /> <br /> the arm cylinder pin with the highest stress is 138.9 MPa. For dynamic load <br /> <br /> analysis, the critical location is located on the area around the bucket tooth with <br /> <br /> the highest stress is 690 MPa. To make sure that the FEM dynamic load case is <br /> <br /> correct, the author compared the stress from FEM dynamic load to stress from <br /> <br /> impact test. The stress of FEM dynamic load is 2 times higher than stress from <br /> <br /> impact test with R2 = 0,9045. The ratio between force due to static loading and <br /> <br /> dynamic loading is 63,8.

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