The Two-Parameter Fracture Criterion Taking into Account Two-Dimensional Deformation Constraints at the Front of a Mixed-Type Crack

A. M. Pokrovskii; Покровский А. М.; Yu. G. Matvienko; Матвиенко Ю. Г.

doi:10.31857/S0235711923060135

The Two-Parameter Fracture Criterion Taking into Account Two-Dimensional Deformation Constraints at the Front of a Mixed-Type Crack

Authors: Pokrovskii A.M.¹, Matvienko Y.G.²
Affiliations:
1. Bauman Moscow State Technical University
2. Mechanical Engineering Research Institute of the Russian Academy of Sciences (IMASH RAN)
Issue: No 6 (2023)
Pages: 11-21
Section: НАДЕЖНОСТЬ, ПРОЧНОСТЬ, ИЗНОСОСТОЙКОСТЬ МАШИН И КОНСТРУКЦИЙ
URL: https://journals.rcsi.science/0235-7119/article/view/162307
DOI: https://doi.org/10.31857/S0235711923060135
EDN: https://elibrary.ru/YXPNKR
ID: 162307

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Abstract
About the authors
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Abstract

In this article, a new fracture criterion for a mixed-type crack (type I + type II) is proposed. It is based on the assumption that the maximum tangential stresses in the prefracture region are equal to the local strength of the material. In this case, the size of the prefracture area and the local strength are determined taking into account nonsingular Тхx and Тzz stresses included in the expansion of the Williams stress function. The use of Тхx and Тzz stresses in the calculations allows one to describe the two-dimensional local constraint of the deformation along the crack front in three-dimensional bodies. In addition to KI and KII, the expression for the effective stress intensity factor (SIF) includes the ratios of the Тхx and Тzz stresses to the yield strength. This makes it possible to take into account the constraint of deformations in the transverse and longitudinal directions of the crack front, respectively. An example of the implementation of the developed criterion in relation to the determination of the fracture load of a tensile-stressed plate with a through inclined crack is given. Dependences of the Тxx and Тzz stresses on the plate thickness are presented for various crack slopes and plate thicknesses. It is shown that an increase in the plate thickness and a decrease in the crack slope lead to a decrease in the fracture load.

Keywords

stress intensity factor, Т хx and Т zz stresses, mixed-type I + type II crack

About the authors

A. M. Pokrovskii

Bauman Moscow State Technical University

Email: pokrovsky@bmstu.ru
Moscow, Russia

Yu. G. Matvienko

Mechanical Engineering Research Institute of the Russian Academy of Sciences (IMASH RAN)

Author for correspondence.
Email: pokrovsky@bmstu.ru
Moscow, Russia

References

Erdogan F., Sih G.C. On the Crack Extension in Plates under Plane Loading and Transverse Shear // Journal of Basic Engineering. 1963. V. 85 (4). P. 519.
Черепанов Г.В. Механика разрушения. М.: Изд-во: Регулярная и хаотическая динамика, Институт компьютерных исследований, 2012. 872 с.
Williams M.L. On the Stress Distribution at the Base of a Stationary Crack // Journal of Applied Mechanics. 1957. V. 24 (1). P. 109.
Матвиенко Ю.Г. Двухпараметрическая механика разрушения. М.: ФИЗМАТЛИТ, 2020. 208 с.
Belova O.N., Stepanova L.V. Cofficients of the Williams power expansion of the near crack tip stress field in continuum linear elastic fracture mechanics at the nanoscale // Theoretical and Applied Fracture Mechanics. 2022. T. 119. 103298.
Stepanova L.V., Belova O.N. Stress intensity factors, T-stresses and higher order coefficients of the Williams series expansion and their evaluation through molecular dynamics simulations // Mechanics of Advanced Materials and Structures. 2022. V. 30 (15). P. 1. https://doi.org/10.1080/15376494.2022.2084800
Aliha M.R.M., Ayatollahi M.R., Smith D.J., Pavier M.J. Geometry and size effects on fracture trajectory in a limestone rock under mixed mode loading // Eng. Fract. Mech. 2010. V. 77. P. 2200.
Nakamura T., Parks D.M. Determination of elastic T-stress along three-dimensional crack front an interaction integral // Int. J. Solid Struct. 1992. V. 29. P. 1597.
Покровский А.М., Матвиенко Ю.Г. Критерий разрушения, учитывающий двухосное стеснение деформаций по фронту трещины нормального отрыва // Проблемы машиностроения и надёжности машин. 2023. № 4. С. 34.
Партон В.З., Морозов Е.М. Механика упругопластического разрушения. Основы механики разрушения. М.: Изд-во ЛКИ, 2008. 352 с.
Феодосьев В.И. Сопротивление материалов. М.: Изд-во МГТУ им. Н.Э. Баумана, 2018. 544 с.
Справочник по коэффициентам интенсивнорсти напряжений: В 2-х томах. Т. 1: Пер. с англ. / Под ред. Ю. Мураками. М.: Мир, 1990. 448 с.
Зенкевич О. Метод конечных элементов в технике. М.: Мир, 1975. 541 с.
Морозов Е.М., Муземнек А.Ю., Шадский А.С. ANSYS в руках инженера: Механика разрушения. М.: ЛЕНАНД, 2008. 456 с.