Failure Analysis of a Vehicle Engine Crankshaft

Alfares, M.A.; Falah, A. H.; Elkholy, Ahmed

doi:10.1007/s11668-006-9006-0

Cited by 31 publications

(16 citation statements)

References 6 publications

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“…The case studied here clearly reveals that the fillet region was not hardened successfully by the inductionhardening operation and the initiation of fatigue was influenced by local surface conditions prevailing in the fillet region [4]. Surface rolling process was conducted on the fillet region, but the hard-rolling depth is relatively shallow and was not sufficient to prevent initiation of the fatigue in the fillet region.…”

Section: Discussionmentioning

confidence: 89%

Truck Diesel Engine Crankshaft Failure Analysis

Zhang

Yang

2010

J Fail. Anal. and Preven.

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A diesel engine crankshaft fractured in service after 76010 km of operation. The fracture took place on the first crankpin, and the fracture surface has a 45°inclination with respect to the axial. The results indicate that fatigue is the dominant failure mechanism of the crankshaft. It was observed that the fatigue crack initiated at the fillet region of the first crankpin-web. This crankpin is the one among the six crankpins which bear operational load. Absence of the induction hardening case in the fillet region decreased the fatigue strength and led to fatigue initiation and propagation in the weakened region. Although hard-rolling process was conducted in the fillet region, the depth of hard-rolling layer was insufficient to produce the desired residual compressive stress in the fillet region, and therefore the fillet could not offer resistance to the applied load. In addition, the presence of network-like ferrite in the microstructure facilitated the fatigue crack to be initiated and propagated.

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Section: Discussionmentioning

confidence: 89%

Truck Diesel Engine Crankshaft Failure Analysis

Zhang

Yang

2010

J Fail. Anal. and Preven.

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“…The contributing factor for failure mechanism of the crankshaft is due of the bending and torsional stresses with the fluctuation of loads during the operational time period [1,2,3,5,6,32]. The optimal desired reliability life prediction (Fig.…”

Section: Reliability Analysis and Predictionmentioning

confidence: 99%

“…Generally, there are two methods used in determining the appropriate model in determining the time to failure for the automobile crankshaft which were (1). Understanding of the physical nature of failure through the experimental analysis, (2). By analysing and predicting the reliability based physical nature of failure through a stochastic process.…”

Section: Introductionmentioning

confidence: 99%

“…By analysing and predicting the reliability based physical nature of failure through a stochastic process. It is known that the crankshaft is designed to last a lifetime with a significant safety limit [2][3]5] but its failure is still unavoidable due the variation of loading sequence during its operating condition. Therefore, the consequences of failure of the crankshaft over its operating period would cause a more severe failure towards the engine block and the other connecting subcomponents [6,22].…”

Section: Introductionmentioning

confidence: 99%

“…This is because the Weibull distribution has the capability to increase or decrease the failure time without changing the level of stress through the various properties of the shape, scale and location parameter that was further characterized mathematically into 2 modes: (1). Non-monotonic failure -observing the bath tub curve, (2). Monotonic failure; in predicting the failure rate [21,28].…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Reliability analysis and prediction for time to failure distribution of an automobile crankshaft

Singh

Abdullah

Mohamed

2015

EiN

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Failure Analysis of a Truck Diesel Engine Crankshaft Made from Spheroidal Cast Iron

Zhang

2011

J Fail. Anal. and Preven.

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A diesel engine crankshaft fractured in service after 13,656 km of operation. The fracture took place on the sixth, the fifth, and the fourth crankpins and the fracture surfaces have a 45°inclination with respect to the axial of crankshaft. The cracks of the sixth and the fifth crankpin are across the oil hole and a complete fracture took place at the sixth crankpin which bore the maximum torque load. On the fourth crankpin, crack is only through the thin wall side of oil hole. The results indicate that fatigue fracture is the dominant failure mechanism of the crankshaft. It was observed that the fatigue cracks in the crankpins initiated at machining dents present on the wall of oil hole. The appearance of the machining dents on the wall of oil hole suggests improper machining and these dents supplied the stress concentration site that was mainly responsible for the fatigue fracture of crankshaft.

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Failure Analysis of a Vehicle Engine Crankshaft

Cited by 31 publications

References 6 publications

Truck Diesel Engine Crankshaft Failure Analysis

Truck Diesel Engine Crankshaft Failure Analysis

Reliability analysis and prediction for time to failure distribution of an automobile crankshaft

Failure Analysis of a Truck Diesel Engine Crankshaft Made from Spheroidal Cast Iron

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