The objective of this work is to determine the main cause of failure of a crankshaft from an ULM airplane aeroengine. The core of this paper is focused in the analysis of the damage mechanisms which were in the base of a catastrophic failure of the crankpin journal. Based on a preliminary observation of the fracture surface, there are clear evidences of a fatigue process as both beach and striation marks have been identified. The judicious characterization of the failing mechanism, including the identification of the crack initiation site and the assessment of the crack propagation rate, is of paramount importance to support the investigation of this aircraft accident. In this context, an exhaustive observation of the fracture surface by means of optical and electronic microscopic techniques, in parallel with microstructural examinations, were carried out as determinant information for the correct assessment of the contributive causes to this accident.
[1]
Ke Bao,et al.
Stress Calculation of Fillet Rolled Crankshaft in Bending Fatigue Tests
,
2010
.
[2]
M. de Freitas,et al.
Marine main engine crankshaft failure analysis: A case study
,
2009
.
[3]
D. J. Wulpi,et al.
Understanding How Components Fail
,
1985
.
[4]
David Sánchez,et al.
Failure analysis of reciprocating compressor crankshafts
,
2011
.
[5]
M. de Freitas,et al.
Microscopy analysis of damaged aeronautical components
,
2010
.
[6]
A. Reddy,et al.
Investigation of Aeronautical and Engineering Component Failures
,
2004
.