Microstructure and mechanical properties correlation for the steel: A comparative methodology of educational research for physics and mechanical engineering trainings

GonzÃ¡lez-Vizcarra, B.; Mesa, F.; Delgado-HernÃ¡ndez, A.; Avila-Puc, M.; Colores-Vargas, J. M.; RamÃ­rez-Arias, F. J.; Siqueiros-HernÃ¡ndez, M.; Cruz-Vazquez, L.

doi:10.5897/ijps2017.4687

Cited by 3 publications

(1 citation statement)

References 23 publications

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“…Under modern conditions, one of the main directions for rolling-mill practice development is to ensure the competitiveness of rolled metal in the European and world markets by improving quality indicators [1][2][3]. This fully relates to the heavy plates production, the quality assessment of which includes the mandatory determining the indicators of physical and mechanical properties [4][5][6], such as yield strength (YS, MPa), tensile strength (TS, MPa), percent elongation (%EL, %) and percent reduction in area (%, RA), impact hardness (ak, J/cm 2 ). These indicators are largely dependent on the chemical composition and the formed structure of steel, which is influenced by the applied processing schedules of rolling and heat treatment on heavy plate mills (HPM) [7,8].…”

Section: Introductionmentioning

confidence: 99%

Mathematical Models for Forecasting of 10Mn2VNb Steel Heavy Plates Mechanical Properties

Prysiazhnyi

Kukhar

Hornostai

et al. 2021

MSF

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The problem urgency for determining the optimal rolling and heat treatment schedules for providing the required indices of heavy plates physical and mechanical properties is shown. The use of statistical mathematical models for solving this problem is substantiated and the methodology for their design is described. Statistical mathematical models were designed using the mathematical statistics methods and Data Mining tools to determine the yield strength, ultimate tensile strength and percent elongation for 10Mn2VNb steel plates rolled under 3600 heavy plate mill conditions. Software for the numerical implementation of these statistical mathematical models has been developed. Applied software has been developed for the numerical implementation of the statistical mathematical models for predicting the heavy plate’s mechanical properties, and high calculation accuracy has been confirmed with the ones help: 95.82% for the yield strength, 96.78% for the ultimate tensile strength, and 91.48% for the percent elongation. The regularities of the influence for finish rolling factual temperature in the finishing stand of 3600 heavy plate mill and the plate thickness on 10Mn2VNb pipe steel physical and mechanical properties were identified by processing the database and using the designed software.

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Section: Introductionmentioning

confidence: 99%

Mathematical Models for Forecasting of 10Mn2VNb Steel Heavy Plates Mechanical Properties

Prysiazhnyi

Kukhar

Hornostai

et al. 2021

MSF

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Magnetization mechanisms for non-destructive evaluation of low-carbon steels subject to early-stage low-temperature thermal oxidation

Mongshi,

Tene Deffo,

Mary

et al. 2024

Journal of Magnetism and Magnetic Materials

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Modeling and simulation of belt bucket elevator head shaft for safe life operation

Chikelu

Nwigbo

Obot

et al. 2023

Sci Rep

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This research paper presents a step by step conceptual design and life prediction approach for the design, modeling and simulation of head shaft of a belt bucket elevator, to be used for conveying grains to a height of 33.5 m and at the rate of 200 tons/h. output. For this elevator system, the force and torque acting on the head shaft as well as the bending moment were calculated. Furthermore, the diameter of each cross section of the shaft was determined taking into consideration the geometric and fatigue stress concentration factors, due to shoulders which contribute significantly to most fatigue failures of shafts. The stress induced on the shaft by the force and the factor of safety for each cross section of the shaft was calculated using the DE-Goodman criterion. The model of the shaft was created from the calculated diameters and subjected to static and fatigue analysis using SolidWorks FEA. The results were validated by comparing the values from the FEA and the calculated values for stress and factor of safety of the critical section of the shaft, which showed an equivalent value. The FEA gave a fatigue load factor greater than one, which signifies that the shaft will not go into failure mode within the infinite life cycle of the shaft. The value of the fatigue strength obtained from FEA was higher than the value for the maximum von misses stress of the shaft, this result shows that the head shaft will sustain the loading stresses over a finite life prediction. This research is significant because the stress induced forces on the head shaft from each component of the elevator system were properly identified and analyzed so as to obtain precise results for life prediction.

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Microstructure and mechanical properties correlation for the steel: A comparative methodology of educational research for physics and mechanical engineering trainings

Cited by 3 publications

References 23 publications

Mathematical Models for Forecasting of 10Mn2VNb Steel Heavy Plates Mechanical Properties

Mathematical Models for Forecasting of 10Mn2VNb Steel Heavy Plates Mechanical Properties

Magnetization mechanisms for non-destructive evaluation of low-carbon steels subject to early-stage low-temperature thermal oxidation

Modeling and simulation of belt bucket elevator head shaft for safe life operation

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