Effect of vertex singularities on stress intensities near plate free surfaces

He, Zhu; Kotousov, Andrei; Berto, Filippo

doi:10.1111/ffe.12294

Cited by 70 publications

(44 citation statements)

References 51 publications

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“…This does not mean that the stress is finite at the corner point, but it demonstrates that K I cannot be used to characterize the fields at the corner point. (iii) On the other hand, for the antisymmetric loading condition, the corner singularity is stronger than a crack singularity, and therefore the local K II approaches infinity at the free surfaces (Nakamura and Parks, 1989;Benthem, 1977;Bažant and Estenssoro, 1979;Benthem, 1980;He et al, 2015). (iv) The coupled mode III deformation behaves differently compared to K I and K II since K III must be zero at mid-plane and free surfaces due to the symmetry and traction free boundary conditions, respectively.…”

Section: Evaluation Of Sifs Near the Meeting Point Of Crack Front Andmentioning

confidence: 99%

“…A few characteristics of the SIF variation along the crack front must be noted: (i) As explained earlier, although the cracked plate is primarily subjected to a mixed-mode I/II loading condition, a couple mode III crack deformation is also created due to the Poisson's effects. (ii) Under symmetric loading, the corner singularity is weaker than the crack singularity, and therefore the local K I must approach zero at the free surface (Nakamura and Parks, 1988;Benthem, 1977;Bažant and Estenssoro, 1979;Benthem, 1980;He et al, 2015). This does not mean that the stress is finite at the corner point, but it demonstrates that K I cannot be used to characterize the fields at the corner point.…”

Section: Evaluation Of Sifs Near the Meeting Point Of Crack Front Andmentioning

confidence: 99%

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A disk-shaped domain integral method for the computation of stress intensity factors using tetrahedral meshes

Nejati

Paluszny

Zimmerman

2015

International Journal of Solids and Structures

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Please cite this article as: Nejati, M., Paluszny, A., Zimmerman, R.W., A disk-shaped domain integral method for the computation of stress intensity factors using tetrahedral meshes, International Journal of Solids and Structures (2015), doi: http://dx.doi.org/10. 1016/j.ijsolstr.2015.05.026 This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain.A disk-shaped domain integral method for the computation of stress intensity factors using tetrahedral meshes Abstract A novel domain integral approach is introduced for the accurate computation of pointwise Jintegral and stress intensity factors (SIFs) of 3D planar cracks using tetrahedral elements. This method is efficient and easy to implement, and does not require a structured mesh around the crack front. The method relies on the construction of virtual disk-shaped integral domains at points along the crack front, and the computation of domain integrals using a series of virtual triangular elements. The accuracy of the numerical results computed for through-the-thickness, penny-shaped, and elliptical crack configurations has been validated by using the available analytical formulations. The average error of computed SIFs remains below 1% for fine meshes, and 2 − 3% for coarse ones. The results of an extensive parametric study suggest that there exists an optimum mesh-dependent domain radius at which the computed SIFs are the most accurate. Furthermore, the results provide evidence that tetrahedral elements are efficient, reliable and robust instruments for accurate linear elastic fracture mechanics calculations.

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Section: Evaluation Of Sifs Near the Meeting Point Of Crack Front Andmentioning

confidence: 99%

Section: Evaluation Of Sifs Near the Meeting Point Of Crack Front Andmentioning

confidence: 99%

A disk-shaped domain integral method for the computation of stress intensity factors using tetrahedral meshes

Nejati

Paluszny

Zimmerman

2015

International Journal of Solids and Structures

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“…As opposed to the direct evaluation of the NSIFs, which needs very refined meshes, the mean value of the elastic SED on the control volume can be determined with high accuracy by using coarse meshes [42][43][44] and directly takes into account the three-dimensional effects well described in [45][46][47][48]. Very refined meshes are necessary to directly determined the NSIFs from the local stress distributions.…”

Section: Approach Based On the Local Sed: Analytical Preliminariesmentioning

confidence: 99%

Fatigue strength of steel rollers with failure occurring at the weld root based on the local strain energy values: modelling and fatigue assessment

Berto

Campagnolo

Chebat

et al. 2016

International Journal of Fatigue

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“…There is not an evident stress concentration on the specimen surface of such specimens and fatigue crack initiation shifts from the surface to the interior of specimen, which is a unique feature for VHCF of highstrength materials. For the cases of large curvature notched specimens [39,40], the stress concentration on the notch root is severe, which leads to crack initiation and growth inevitably from the notch root including in VHCF circumstances. The notch effect in VHCF regime is an interesting topic which is our in progress research.…”

mentioning

confidence: 99%

The formation mechanism of characteristic region at crack initiation for very-high-cycle fatigue of high-strength steels

Hong

Liu

Lei

et al. 2016

International Journal of Fatigue

222

165

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a b s t r a c tFor high-strength steels, the crack initiation of very-high-cycle fatigue (VHCF) is commonly at the interior of material with fish-eye (FiE) morphology containing a fine-granular-area (FGA) surrounding an inclusion as crack origin, and FGA is regarded as the characteristic region of crack initiation. Here, we carefully examined the micro-morphology of FGA and FiE for two high-strength steels. The results revealed that the microscopic nature of FGA is a thin layer of nanograins. Then we proposed the formation mechanism of FGA: Numerous Cyclic Pressing (NCP) between originated crack surfaces, which causes grain refinement at originated crack wake and therefore the formation of FGA. The results of second set experiment showed that the cases with negative stress ratios exhibit the prevalence of nanograin layer in FGA region and the nanograin layer vanishes for the cases with positive stress ratios, which is a verification of the proposed NCP model.

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Effect of vertex singularities on stress intensities near plate free surfaces

Cited by 70 publications

References 51 publications

A disk-shaped domain integral method for the computation of stress intensity factors using tetrahedral meshes

A disk-shaped domain integral method for the computation of stress intensity factors using tetrahedral meshes

Fatigue strength of steel rollers with failure occurring at the weld root based on the local strain energy values: modelling and fatigue assessment

The formation mechanism of characteristic region at crack initiation for very-high-cycle fatigue of high-strength steels

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