Fatigue Crack Propagation Estimation Based on Direct Strain Measurement during a Full-Scale Fatigue Test

Reymer, Piotr; Leski, Andrzej; Dziendzikowski, Michał

doi:10.3390/s22052019

Cited by 2 publications

(2 citation statements)

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“…Since the crack in the CP was found late in development, numerical calculations were used in order to determine the crack propagation process. The global model shown in Figure 5 allowed for definition of displacement fields, which were then used for loading the local model of the CP shown in Figure 5 (Reymer, Leski, & Dziendzikowski, 2022) Using the virtual crack closure technique (VCCT), the values of energy release rate were defined along the crack path (Atluri & Nishioka, 1986;Leski, 2003Leski, , 2007Wilk, 2016), allowing for SIF calculation and therefore the dimensionless geometry factor β (Figure 7).…”

Section: Crack Propagation Calculationsmentioning

confidence: 99%

Sensitivity Analysis of the Nasgro Equation Based on the PZL-130 TC-II Orlik Trainer Aircraft Full Scale Fatigue Test

Reymer

Leski

Kurdelski

2022

Fatigue of Aircraft Structures

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The study investigates the sensitivity of numerical crack propagation estimations based on the Nasgro equation. The equation is widely used for crack propagation calculations since it considers the whole range of crack propagation speed from threshold to critical values of stress intensity factor range (∆K). The presented investigation is based on the actual results of the full scale fatigue test (FSFT) of the PZL-130 ‘Orlik’ TC-II aircraft. We provide a brief description of the test and the general approach followed in crack propagation estimations originally carried out after the test. The obtained results are verified in terms of variation of the input data. Overall results are compared and discussed.

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Section: Crack Propagation Calculationsmentioning

confidence: 99%

Sensitivity Analysis of the Nasgro Equation Based on the PZL-130 TC-II Orlik Trainer Aircraft Full Scale Fatigue Test

Reymer

Leski

Kurdelski

2022

Fatigue of Aircraft Structures

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“…These works ignored the conditions in which micro-cracks pre-existed. In general, a fracture in the real world is mostly caused by the propagation of a single macro-crack and is affected by pre-existing micro-cracks [7,[27][28][29][30].…”

Section: Introductionmentioning

confidence: 99%

Digital Twins to Predict Crack Propagation of Sustainable Engineering Materials under Different Loads

Li,

2024

Machines

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Computer-aided engineering (CAE) is an essential tool in a digital twin not only to verify and validate a virtual twin before it is transformed into a physical twin, but also to monitor the use of the physical twin for enhanced sustainability. This paper aims to develop a CAE model for a digital twin to predict the fatigue life of materials. Fatigue damage is represented by the size of a macro-crack that grows with a cluster of micro-cracks subjected to three different loads. The growth angle is related to the maximum circumferential tensile stress, and the growth rate is determined by the stress intensity factor (SIF) at the crack tip. The prediction model takes into consideration the main factors, including micro-cracks, crack closures, and initial configurations. Simulations are developed for the growth of macro-cracks with radially distributed micro-cracks and randomly distributed micro-cracks, and we find that (1) the macro-crack in the second case grows faster than that in the first case; (2) a pure shear load affects the macro-crack propagation more than a combined shear and tensile load or a tensional load; (3) the external stresses required to propagate are reduced when the inclination angle of the micro-crack is small and within (−25° < β < 25°); (4) micro-cracks affect the propagating path of the macro-crack and generally guide the direction of propagation. The developed model has been verified and validated experimentally for its effectiveness in predicting the fracture or fatigue damage of a structure.

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Fatigue Crack Propagation Estimation Based on Direct Strain Measurement during a Full-Scale Fatigue Test

Cited by 2 publications

References 25 publications

Sensitivity Analysis of the Nasgro Equation Based on the PZL-130 TC-II Orlik Trainer Aircraft Full Scale Fatigue Test

Sensitivity Analysis of the Nasgro Equation Based on the PZL-130 TC-II Orlik Trainer Aircraft Full Scale Fatigue Test

Digital Twins to Predict Crack Propagation of Sustainable Engineering Materials under Different Loads

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