Study on Failure Analysis of Crankshaft Using Finite Element Analysis

Ang, Yoon Zuan; Ku, Pei Xuan

doi:10.1051/matecconf/202133503001

Cited by 3 publications

(1 citation statement)

References 14 publications

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“…Based on the resulted mode shapes and natural frequencies, damping factors were estimated to be used in dynamic analysis. Ang and Ku [18] used SolidWorks and ANSYS for the fatigue and modal analysis of an automotive crankshaft. Kumar et al [19] analyzed the crankpin failure in a single-cylinder engine.…”

Section: Figure 1 Individual Components Of the Assembly Including Pis...mentioning

confidence: 99%

Thermo-Mechanical Analysis of a Typical Vehicle Engine Using PTC-Creo

Mahmoudi

2022

j. of mech. mater. and mech. res.

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In this work, a typical vehicle engine is modeled within PTC-Creo software, and its thermal, mechanical, and thermo-mechanical performance are evaluated. This is followed by the vibrational, fatigue, and buckling analysis of the assembly of components, which are the predominant failure causes. The results show that the least temperature gradient occurs in the center of the pin, which connects the piston to the connecting rod, the maximum displacement is seen just below the piston head, and the thermo-mechanical failure is caused mostly (about 85%) by the mechanical load rather than the thermal one. Also, in fatigue analysis, the minimum and maximum values for the safety factor are 0.63 and 5, respectively. The results can prevent the reoccurrence of similar failures and help the enhancement of the components’ design and manufacturing process.

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Section: Figure 1 Individual Components Of the Assembly Including Pis...mentioning

confidence: 99%

Thermo-Mechanical Analysis of a Typical Vehicle Engine Using PTC-Creo

Mahmoudi

2022

j. of mech. mater. and mech. res.

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Fatigue fracture analysis of the 42CrMo4 crankshaft used for mining dump truck

Luo,

Yue,

Chen

et al. 2023

Engineering Failure Analysis

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Crankshaft geometry modification and strength simulations for a new design of diesel opposed-piston engine

Magryta¹,

Pietrykowski²

2023

Combustion Engines

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The article presents simulation strength calculations of a newly designed crankshaft for a PZL 100 engine with a reciprocating piston design. This engine is the subject of a research and development project co-financed by NCBR. The article presents four successive versions of the crankshaft geometric changes which underwent strength calculations. Such elements as the outer and inner parts of the crankshaft arm were changed in these geometric versions. The geometry of the shaft was changed using Catia v5 software, while strength calculations were carried out in Abaqus software. In summary, one of the presented models was selected for further work due to the possible simplification of the manufacturing process and the reduction of mass and stresses. This model was further investigated in the project.

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Study on Failure Analysis of Crankshaft Using Finite Element Analysis

Cited by 3 publications

References 14 publications

Thermo-Mechanical Analysis of a Typical Vehicle Engine Using PTC-Creo

Thermo-Mechanical Analysis of a Typical Vehicle Engine Using PTC-Creo

Fatigue fracture analysis of the 42CrMo4 crankshaft used for mining dump truck

Crankshaft geometry modification and strength simulations for a new design of diesel opposed-piston engine

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