Estimation of Fatigue Crack Growth Rate in Heat-Resistant Steel by Processing of Digital Images of Fracture Surfaces

Maruschak, Pavlo; Vorobel, Roman; Student, О. Z.; Ivasenko, Iryna; Krechkovska, Halyna; Berehulyak, Olena; Mandziy, Teodor; Svirs’ka, L. M.; Prentkovskis, Olegas

doi:10.3390/met11111776

Cited by 18 publications

(6 citation statements)

References 56 publications

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“…Figure 5c shows a picture of one initiation point in higher magnification. Figure 5d shows striations typical for stable fatigue crack growth [9]. The detail from the area of the final fracture (see Fig.…”

Section: Resultsmentioning

confidence: 97%

Effect of heat treatment on the microstructure and fatigue behaviour of AISI 4130 steel

Poloprudský,

Chlupová,

Šulák

et al. 2023

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AISI 4130 steel is widely used in the aircraft industry, mainly for frame structures. It is a medium carbon low-alloyed (25CrMo4) steel predetermined for precipitation of carbides in the microstructure during heat treatment. Six different heat treatments were applied to study the effect of the resulting microstructure (ferritic-pearlitic in a normalised state or martensitic with carbides in a hardened state) on the fatigue life of AISI 4130. Tension-tension cycling under force control was used to determine the S-N curve of flat specimens with a central circular notch. The best fatigue properties were achieved for the material state HT125, i.e., hardened & tempered to 125 ksi (863 MPa), exhibiting the maximum stress at a fatigue limit of 225 MPa, which is approximately 5-15 % better compared to the rest of the applied heat treatments. Microstructural investigations using scanning electron microscopy explained the acquired fatigue life results of AISI 4130 concerning different heat-treated conditions.

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Section: Resultsmentioning

confidence: 97%

Effect of heat treatment on the microstructure and fatigue behaviour of AISI 4130 steel

Poloprudský,

Chlupová,

Šulák

et al. 2023

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“…The study (ibid) results showed that the proposed model achieves a classification accuracy of 93.86%. A method for the quantitative assessment of the spacing of FS was developed by (Maruschak et al, 2021). The method includes the detection of FS by binarization of the image based on the principle of local minima and rotation of the highlighted fragments of the image using the Hough transform.…”

Section: Crack Detection Based Hough Transformmentioning

confidence: 99%

An automatic image processing based on Hough transform algorithm for pavement crack detection and classification

Matarneh

Elghaish²,

Al-Ghraibah³

et al. 2023

SASBE

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PurposeIncipient detection of pavement deterioration (such as crack identification) is critical to optimizing road maintenance because it enables preventative steps to be implemented to mitigate damage and possible failure. Traditional visual inspection has been largely superseded by semi-automatic/automatic procedures given significant advancements in image processing. Therefore, there is a need to develop automated tools to detect and classify cracks.Design/methodology/approachThe literature review is employed to evaluate existing attempts to use Hough transform algorithm and highlight issues that should be improved. Then, developing a simple low-cost crack detection method based on the Hough transform algorithm for pavement crack detection and classification.FindingsAnalysis results reveal that model accuracy reaches 92.14% for vertical cracks, 93.03% for diagonal cracks and 95.61% for horizontal cracks. The time lapse for detecting the crack type for one image is circa 0.98 s for vertical cracks, 0.79 s for horizontal cracks and 0.83 s for diagonal cracks. Ensuing discourse serves to illustrate the inherent potential of a simple low-cost image processing method in automated pavement crack detection. Moreover, this method provides direct guidance for long-term pavement optimal maintenance decisions.Research limitations/implicationsThe outcome of this research can help highway agencies to detect and classify cracks accurately for a very long highway without a need for manual inspection, which can significantly minimize cost.Originality/valueHough transform algorithm was tested in terms of detect and classify a large dataset of highway images, and the accuracy reaches 92.14%, which can be considered as a very accurate percentage regarding automated cracks and distresses classification.

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“…The main factors of the degradation of heat-resistant steels operated at TPPs include high temperature and stress, supplemented by the influence of a hydrogen-inducing technological environment [9][10][11][12][13][14][15][16][17][18][19][20][21][22][23]. During the long-term operation of high-and low-alloy heat-resistant steels, the carbides form and coagulate along the grain boundaries.…”

Section: Introductionmentioning

confidence: 99%

Analysis of Mechanical Properties of Welded Joint Metal from TPP Steam Piping after Its Operational Degradation and Hydrogenation

Hutsaylyuk,

Student,

Maruschak

et al. 2023

Materials

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In this paper, the mechanical properties of various zones of the welded joints of a heat-resistant steel 15Kh1M1F in different states (in the initial state, after an operation on the main steam piping of a thermal power plant (TPP) for 23 years) were determined, and the fracture surfaces were analyzed using scanning electron microscopy (SEM) images. The effect of hydrogen electrolytic charging on mechanical behavior and fracture mechanism was also studied. The long-term operation of welds resulted in a higher degradation degree of the weld metal compared to the base one, indicated by the deterioration of mechanical properties: decrease in hardness, strength characteristics, and reduction in area, which was accompanied by an atypical increase in elongation at fracture. All studied zones of the operated welded joints were characterized by higher hydrogen content, 2.5–3 times higher than that in the initial state. Additional hydrogen charging of the weld joint metal led to a decrease in the strength and ductility characteristics, more significantly for the operated weld compared with the non-operated one. This justified the possibility of using short-term tests of hydrogenated WM in the air to assess the degree of its damage during operation on a steam piping.

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Estimation of Fatigue Crack Growth Rate in Heat-Resistant Steel by Processing of Digital Images of Fracture Surfaces

Cited by 18 publications

References 56 publications

Effect of heat treatment on the microstructure and fatigue behaviour of AISI 4130 steel

Effect of heat treatment on the microstructure and fatigue behaviour of AISI 4130 steel

An automatic image processing based on Hough transform algorithm for pavement crack detection and classification

Analysis of Mechanical Properties of Welded Joint Metal from TPP Steam Piping after Its Operational Degradation and Hydrogenation

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