The Effect of Fine Non-Metallic Inclusions on the Fatigue Strength of Structural Steel

Lipiński, T.; Wach, A.

doi:10.1515/amm-2015-0010

Cited by 22 publications

(29 citation statements)

References 12 publications

(21 reference statements)

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“…An analysis of coefficients a and b (1) in regression equations (4)(5)(6)(7)(8)(9) indicates that fatigue strength (parameter b) decreases and that the effect of large non-metallic inclusions (parameter a) increases with a rise in tempering temperature. The results of this study indicate that fatigue strength, represented by fatigue strength under rotary bending conditions, is correlated with the relative volume of non-metallic inclusions larger than 10 µm and a tempering temperature of 200-500 o C. The presence of statistically significant correlations was verified by Student's t-test.…”

Section: Discussionmentioning

confidence: 99%

“…Heat treatment was applied to evaluate the effect of hardening on the fatigue properties of the analyzed material, subject to the volume of fine non-metallic inclusions. The application of various heat treatment parameters led to the formation of different microstructures responsible for steel hardness values in the following range from 271 to 457 HV [7]. Examination was realized on a rotary bending fatigue testing machine at 6000 rpm.…”

Section: Materials and Experimental Proceduresmentioning

confidence: 99%

“…Initial stages are marked by the incubation of slips whose number increases in individual grains. When critical values are exceeded, the material cracks and becomes fit for scrap [1,[6][7][8][9]. Steel of various purity grades is manufactured for the production of elements that operate under different conditions.…”

Section: Introductionmentioning

confidence: 99%

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Influence Of Large Non-Metallic Inclusions On Bending Fatigue Strength Hardened And Tempered Steels

Lipiński

Wach

Detyna

2015

Advances in Materials Science

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The article discusses the effect of large oxide impurities (a diameter larger than 10 µm in size) on the fatigue resistance of structural steel of high purity during rotary bending. The study was performed on 7 heats produced in an industrial plant. The heats were produced in 140 ton electric furnaces. All heats were desulfurized. The experimental material consisted of semi-finished products of high-grade, carbon structural steel with: manganese, chromium, nickel, molybdenum and boron. Steel sections with a diameter of 18 mm were hardened from austenitizing by 30 minutes in temperature 880 o C and tempered at a temperature of 200, 300, 400, 500 and 600°C for 120 minutes and air-cooled. The experimental variants were compared in view of the heat treatment options. Fatigue tests were performed with the use of a rotary bending machine at a frequency of 6000 cpm. The results were statistical processed and presented in graphic form. This paper discusses the results of the relative volume of large impurities, the fatigue strength for various heat processing options.

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Section: Discussionmentioning

confidence: 99%

Section: Materials and Experimental Proceduresmentioning

confidence: 99%

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Influence Of Large Non-Metallic Inclusions On Bending Fatigue Strength Hardened And Tempered Steels

Lipiński

Wach

Detyna

2015

Advances in Materials Science

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Section: Aim Of the Study And Methodsmentioning

confidence: 99%

“…Non-metallic inclusions are one of such defects [26][27][28][29]. The quantity and quality of non-metallic inclusions determine the mechanical properties and fatigue strength of materials [30,31].…”

Section: Introductionmentioning

confidence: 99%

Effect Of The Spacing Between Submicroscopic Oxide Impurities On The Fatigue Strength Of Structural Steel

Lipiński¹

2015

Archives of Metallurgy and Materials

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The article discusses the effect of distance between submicroscopic oxide impurities (up to 2 μm in size) on the fatigue resistance coefficient of structural steel during rotary bending. The study was performed on 21 heats produced in an industrial plant. Fourteen heats were produced in 140 ton electric furnaces, and 7 heats were performed in a 100 ton oxygen converter. All heats were desulfurized. Furthermore seven heats from electrical furnaces were refined with argon, and heats from the converter were subjected to vacuum circulation degassing.Steel sections with a diameter of 18 mm were hardened from austenitizing by 30 minutes in temperature 880°C and tempered at a temperature of 200, 300, 400, 500 and 600°C. The experimental variants were compared in view of the applied melting technology and heat treatment options. The results were presented graphically and mathematically. The fatigue resistance coefficient of structural steel with the effect of spacing between submicroscopic oxide impurities was determined during rotary bending. The results revealed that fatigue resistance coefficient k is determined by the distance between submicroscopic non-metallic inclusions and tempering temperature.Keywords: steel, structural steel, non-metallic inclusions, fatigue strength, oxide impurities, fatigue resistance coefficient, bending fatigue, bending pendulum W pracy przedstawiono wyniki badań wpływu odległości pomiędzy submikroskopowymi zanieczyszczeniami tlenkowymi, o wielkości do 2 μm, na wskaźnik odporności na zmęczenie stali konstrukcyjnej przy zginaniu obrotowym. Badania prowadzono na 21 wytopach wyprodukowanych w warunkach przemysłowych. 14 wytopów wykonano w piecach elektrycznych o pojemności 140 ton i 7 wytopów w konwertorze tlenowym o pojemności 100 ton. Wszystkie wytopy poddawano odsiarczaniu. Dodatkowo 7 wytopów pochodzących z pieca elektrycznego poddawano rafinacji argonem, zaś wytopy z konwertora odgazowaniu próżniowemu.Odcinki ze stali o średnicy 18 mm hartowano po austenityzowaniu w czasie 30 minut z temperatury 880°C i odpuszczano w temperaturach: 200, 300, 400, 500 lub 600°C. Warianty badań zestawiono uwzględniając technologię wytapiania stali opcje obróbki cieplnej. Wyniki przedstawiono w graficznej i matematycznej postaci uwzględniającej zależności wskaźnik odporności na zmęczenie przy obrotowym zginaniu z odległości pomiędzy submikroskopowymi zanieczyszczeniami. Wykazano, że wskaźnik odporności na zmęczenie k zależy od odległości pomiędzy submikroskopowymi wtrąceniami niemetalicznymi, oraz temperatury odpuszczania.

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Machine learning algorithms for the prediction of non-metallic inclusions in steel wires for tire reinforcement

Cuartas

Ruiz²,

Ferreño

et al. 2020

J Intell Manuf

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The Effect of Fine Non-Metallic Inclusions on the Fatigue Strength of Structural Steel

Cited by 22 publications

References 12 publications

Influence Of Large Non-Metallic Inclusions On Bending Fatigue Strength Hardened And Tempered Steels

Influence Of Large Non-Metallic Inclusions On Bending Fatigue Strength Hardened And Tempered Steels

Effect Of The Spacing Between Submicroscopic Oxide Impurities On The Fatigue Strength Of Structural Steel

Machine learning algorithms for the prediction of non-metallic inclusions in steel wires for tire reinforcement

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