In this work, the fatigue crack-growth process in a rotating disk of an aircraft gas turbine engine has been simulated. The considered crack nucleated in the attachment between a blade and the disk of a compressor stage, both made of a two-phase titanium alloy. The fatigue crack-growth process of such crack has been simulated by means of two codes, ABAQUS and BEASY, based on Finite Element Method (FEM) and Dual Boundary Element Method (DBEM) respectively. In particular, a variant of the submodelling technique, based on the superposition principle, has been used for coupling the two codes in order to exploit simultaneously their peculiar strength points. The FEM code has been used to compute the global stress field whereas the DBEM code has been used to calculate the fracture parameters, useful to predict the crack-growth evolution. The J-integral method and the Minimum Strain Energy Density Criterion (MSED) have been used for calculating K values and predicting crack kinking respectively. In this work, the FEM-DBEM crack path is compared with both the path obtained by a full-scale experimental test and the path predicted via a full FEM approach: having in an initial stage considered the only centrifugal load, with no allowance e.g. for the fluid pressure on the blades and for the blade dynamic behaviour, some discrepancies are found between numerical and experimental results. The computational advantages of the proposed submodelling approach are highlighted, in addition to a preliminary fatigue assessment provided for the considered compressor disk (further analyses are under development).

Fatigue crack growth in a compressor stage of a turbofan engine by FEM-DBEM approach / Giannella, Venanzio; Perrella, Michele; Shlyannikov, Valery N.. - In: PROCEDIA STRUCTURAL INTEGRITY. - ISSN 2452-3216. - 12:(2018), pp. 404-415. (Intervento presentato al convegno AIAS 2018 international conference on stress analysis tenutosi a Villa San Giovanni (RC) nel 5-8 SETTEMBRE 2018) [10.1016/j.prostr.2018.11.077].

Fatigue crack growth in a compressor stage of a turbofan engine by FEM-DBEM approach

PERRELLA, MICHELE;
2018

Abstract

In this work, the fatigue crack-growth process in a rotating disk of an aircraft gas turbine engine has been simulated. The considered crack nucleated in the attachment between a blade and the disk of a compressor stage, both made of a two-phase titanium alloy. The fatigue crack-growth process of such crack has been simulated by means of two codes, ABAQUS and BEASY, based on Finite Element Method (FEM) and Dual Boundary Element Method (DBEM) respectively. In particular, a variant of the submodelling technique, based on the superposition principle, has been used for coupling the two codes in order to exploit simultaneously their peculiar strength points. The FEM code has been used to compute the global stress field whereas the DBEM code has been used to calculate the fracture parameters, useful to predict the crack-growth evolution. The J-integral method and the Minimum Strain Energy Density Criterion (MSED) have been used for calculating K values and predicting crack kinking respectively. In this work, the FEM-DBEM crack path is compared with both the path obtained by a full-scale experimental test and the path predicted via a full FEM approach: having in an initial stage considered the only centrifugal load, with no allowance e.g. for the fluid pressure on the blades and for the blade dynamic behaviour, some discrepancies are found between numerical and experimental results. The computational advantages of the proposed submodelling approach are highlighted, in addition to a preliminary fatigue assessment provided for the considered compressor disk (further analyses are under development).
2018
Fatigue crack growth in a compressor stage of a turbofan engine by FEM-DBEM approach / Giannella, Venanzio; Perrella, Michele; Shlyannikov, Valery N.. - In: PROCEDIA STRUCTURAL INTEGRITY. - ISSN 2452-3216. - 12:(2018), pp. 404-415. (Intervento presentato al convegno AIAS 2018 international conference on stress analysis tenutosi a Villa San Giovanni (RC) nel 5-8 SETTEMBRE 2018) [10.1016/j.prostr.2018.11.077].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/778554
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