Failure Analysis of a Fractured Leaf Spring as the Suspension System Applied on the Dump Truck

Husaini Husaini; Rizqi Handayani Liza; Nurdin Ali; Sadrawi Muammar

doi:10.4028/www.scientific.net/KEM.892.89

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Failure Analysis of a Fractured Leaf Spring as the Suspension System Applied on the Dump Truck
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 892Failure Analysis of a Fractured Leaf Spring as the...

Failure Analysis of a Fractured Leaf Spring as the Suspension System Applied on the Dump Truck

Abstract:

A spring is a component which is designed to have relatively low stiffness compared to normal rigid rods, thereby making it possible to accept certain forces that are charged. A leaf spring is an important suspension component for heavy vehicles, as a failure of the leaf spring can cause severe if not fatal accidents. This study aims to investigate the factors that cause leaf spring failure in the form of a 125 PS dump truck vehicle suspension system. The method employed incorporated experimental and finite element analyses. The experimental work included visual observations, observation using a scanning electron microscope (SEM), hardness testing, and microstructure testing. Leaf spring modelling was conducted using Autodesk Inventor 2017 software, and the finite element analysis (FEA) was performed using Siemens ™ FEMAP V12.0.1 application software to calculate the maximum stress and strain that occurred near the crack tip of the leaf spring. The results from the analysis indicated that the cause of the fracture that occurred in leaf spring No. 3 was due to a defect discovered on the surface of the leaf spring. Based on the observations of the fracture surface, it is revealed that the cause of failure was due to the cyclic load experienced by the components during operation which caused crack propagation beginning from micro-cracks until reaching a significant dimension to cause a final fracture. In addition, the overload imposed on the leaf springs also caused maximum stress on the springs to increase, thus accelerating the failure of the leaf springs. Further results also showed that the value of the stress intensity factor, K_I = 29.15 MPa.m^1/2was greater than the value of fracture toughness, K_IC = 23 MPa.m^1/2of the spring material.