Effect of Stress Wave Form on Crack Growth Initiation Behavior of Delayed Failure under Cyclic Mixed Mode I and II Loading Conditions.

While mixed-mode loading conditions became hot topic recently, it is still quite unexplored area, even in case of metals. In case of polymers, this is even more complex problem, thanks to their higher sensitivity on higher temperatures connected with friction. Since polymer materials are very popular, this topic is of high interest. One of the best experimental specimens for achieving mixed mode loading conditions is the CRB specimen, as it provides clear mixed-mode I + III conditions under tension + torsion. Furthermore, for lifetime predictions it is necessary to calculate some material constants based on measured crack growth rates. However, these crack growth rates are not as easily and accurately measured on CRB specimens, as on CT specimens. Therefore, the main focus of this study is to observe difference between lifetime predictions based on CT and CRB data and possible application of CT data for CRB specimens.

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The effects of stress cycle frequency and stress wave form on SCC crack growth in high-strength steel and automatic classification of mixed mode of intergranular and transgranular cracking.

TRANSACTIONS OF THE JAPAN SOCIETY OF MECHANICAL ENGINEERS Series A ◽

10.1299/kikaia.54.670 ◽

1988 ◽

Vol 54 (500) ◽

pp. 670-678

Author(s):

Kohji MINOSHIMA ◽

Masaki OJIMA ◽

Kenjiro KOMAI

Keyword(s):

Crack Growth ◽

Stress Wave ◽

High Strength Steel ◽

Mixed Mode ◽

High Strength ◽

Automatic Classification ◽

Wave Form ◽

Stress Cycle ◽

Cycle Frequency

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Fatigue Crack Growth Analysis with Extended Finite Element for 3D Linear Elastic Material

Metals ◽

10.3390/met11030397 ◽

2021 ◽

Vol 11 (3) ◽

pp. 397

Author(s):

Yahya Ali Fageehi

Keyword(s):

Finite Element ◽

Fatigue Crack ◽

Fatigue Life ◽

Crack Propagation ◽

Crack Growth ◽

Mixed Mode ◽

Propagation Path ◽

Loading Conditions ◽

Extended Finite Element ◽

Linear Elastic

This paper presents computational modeling of a crack growth path under mixed-mode loadings in linear elastic materials and investigates the influence of a hole on both fatigue crack propagation and fatigue life when subjected to constant amplitude loading conditions. Though the crack propagation is inevitable, the simulation specified the crack propagation path such that the critical structure domain was not exceeded. ANSYS Mechanical APDL 19.2 was introduced with the aid of a new feature in ANSYS: Smart Crack growth technology. It predicts the propagation direction and subsequent fatigue life for structural components using the extended finite element method (XFEM). The Paris law model was used to evaluate the mixed-mode fatigue life for both a modified four-point bending beam and a cracked plate with three holes under the linear elastic fracture mechanics (LEFM) assumption. Precise estimates of the stress intensity factors (SIFs), the trajectory of crack growth, and the fatigue life by an incremental crack propagation analysis were recorded. The findings of this analysis are confirmed in published works in terms of crack propagation trajectories under mixed-mode loading conditions.

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Effect of T-stress on crack growth under mixed mode I–III loading

International Journal of Solids and Structures ◽

10.1016/j.ijsolstr.2008.05.014 ◽

2008 ◽

Vol 45 (18-19) ◽

pp. 5181-5188 ◽

Cited By ~ 19

Author(s):

Viggo Tvergaard

Keyword(s):

Crack Growth ◽

Mixed Mode ◽

Mode I ◽

T Stress

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