Rapid evaluation of notch stress intensity factors using the peak stress method: Comparison of commercial finite element codes for a range of mesh patterns

The peak stress method (PSM) is an engineering, finite element (FE)‐oriented method to rapidly estimate the notch stress intensity factors by using the singular linear elastic peak stresses calculated from coarse FE analyses. The average element size adopted to generate the mesh pattern can be chose...

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Bibliographic Details
Published in:Fatigue & fracture of engineering materials & structures 2018-05, Vol.41 (5), p.1044-1063
Main Authors: Meneghetti, G., Campagnolo, A., Avalle, M., Castagnetti, D., Colussi, M., Corigliano, P., De Agostinis, M., Dragoni, E., Fontanari, V., Frendo, F., Goglio, L., Marannano, G., Marulo, G., Moroni, F., Pantano, A., Rebora, A., Scattina, A., Spaggiari, A., Zuccarello, B.
Format: Article
Language:English
Subjects:
Calibration
coarse mesh
finite element (FE) analysis
Finite element method
Mathematical analysis
Mesh generation
notch stress intensity factor (NSIF)
peak stress method (PSM)
Stress analysis
Stress intensity factors
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Summary:The peak stress method (PSM) is an engineering, finite element (FE)‐oriented method to rapidly estimate the notch stress intensity factors by using the singular linear elastic peak stresses calculated from coarse FE analyses. The average element size adopted to generate the mesh pattern can be chosen arbitrarily within a given range. Originally, the PSM has been calibrated under pure mode I and pure mode II loadings by means of Ansys FE software. In the present contribution, a round robin between 10 Italian universities has been carried out to calibrate the PSM with 7 different commercial FE codes. To this aim, several two‐dimensional mode I and mode II problems have been analysed independently by the participants. The obtained results have been used to calibrate the PSM for given stress analysis conditions in (i) FE software, (ii) element type and element formulation, (iii) mesh pattern, and (iv) criteria for stress extrapolation and principal stress analysis at FE nodes.
ISSN:8756-758X
1460-2695
DOI:10.1111/ffe.12751