Computational and Experimental Definition of Limit State of the Material of Shell Structures Subjected to Low-Cycle Loading

Samigullin, A.V.; Naumkin, E.A.; Кузеев, И.Р.

doi:10.17122/ogbus-2014-5-404-419

Cited by 9 publications

(4 citation statements)

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“…At the same time, if the operational capability is limited, the construction is still able to perform the originally specified function, both on reduced parameters and on design parameters. Consequently, the designer actually reduces possible regulatory deadlines, for example, because of the lack of knowledge of the possible limiting state criteria for an object [8][9][10][11][12]. Therefore, for responsible constructions and parts, it becomes necessary to determine the stress value at which the defect reaches its limiting size [13][14][15].…”

Section: Relevance Of Researchmentioning

confidence: 99%

Estimation of the Limit State Criterion for Steels C1020 and A 516-55 with V-Notch under Quasistatic Loading Using Acoustic Emission Control

Zakirnichnaya

Abdulganieva

Yudicheva

2019

MSF

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There is a need to determine the stresses value for responsible designs in the oil and gas refining, petrochemical and chemical industries, at which the defect reaches its maximum size. This stress value can be taken as the limit state criterion for strength calculations of vessels and apparatus. The article presents a technique for determining the limit state criterion for carbonaceous and low-alloy steels using the example of steels C1020 and A 516-55 in the state of delivery. As a limit state criterion it is proposed to use the stress value corresponding to the microcrack formation moment. The studies are based on the uniaxial tension tests results at room temperature of flat samples with V-shaped stress concentrators of 2 mm deep, accompanied by an acoustic emission nondestructive testing method. Based on the obtained pulse amplitude and pulse energy dependences on time in the process of testing and fractographic studies, a technique for estimating acoustic emission signals was developed to determine the microcrack formation moment for test steels. Stress values that can be taken as the limit state criterion for steels C1020 and A 516-55 in the delivery state for strength calculations vessels and apparatus are determined using the developed experimentally technique based on the high-amplitude acoustic emission to low-amplitude signals ratio. With the help of specimen fractures fractographic analysis the legitimacy of using the developed technique is justified. Thus, at room temperature for steel C1020, the stress at which a microcrack begins to form is 420 MPa, for steel A 516-55 it is 455 MPa.

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Section: Relevance Of Researchmentioning

confidence: 99%

Estimation of the Limit State Criterion for Steels C1020 and A 516-55 with V-Notch under Quasistatic Loading Using Acoustic Emission Control

Zakirnichnaya

Abdulganieva

Yudicheva

2019

MSF

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“…Moreover, paper [3] provides that parameters, characterizing interaction of external field with the field of eddy currents, induced in the material, are sensible both to the state of material microstructure and to the presence of macrodefects. However, density of eddy currents in the object depends on geometric and electromagnetic parameters of the sensor and monitored object, on mutual disposition of measuring eddy current transducer and the object, as well as on input parameters of the signal to the generating transducer coil [4][5][6].…”

Section: Introductionmentioning

confidence: 99%

Influence of Alternating Current Frequency on Output Voltage at Electromagnetic Method of Metal Control

Кузеев

Valiev

Pivovarov

2019

MSF

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The equipment of oil refineries and other hazardous production facilities operate under high pressures and temperatures. Such operation conditions require continuous control and equipment remaining operation life period assessment. The existing methods of diagnostics are based on probabilistic remaining life assessment and use data regarding wall thickness variation during the operation process. The present article presents the method of accumulated damage assessment and its approximation to the limiting state, based on electromagnetic processes studying by means of eddy current control method. The main purpose of studies was determination of optimal value of input signal frequency, which could the most informative for determination of regularity of electric signal parameters change depending on the level of accumulated damages. Steel grade 09Г2С samples were used as the subject of studies. The samples were exposed to static tension under constant rate and during the process of samples deformation we measured the value of electric signal under three frequencies: 100 Hz, 10 kHz, and 1 MHz Based on the obtained results we prepared output signal voltage-relative elongation dependencies, which showed that accumulation of plastic deformations in metal leads to reduction of signal amplitude. Particularly interesting was dependence under 1 MHz frequency, under which electromagnetic processes occur in subsurface and surface layers. This dependence was of some regular nature, which was described by means of the sinusoidal function. Graph of the obtained function qualitatively describes the experimental dependence. On the basis of obtained results we can make a conclusion that optimal input signal frequency is within megahertz range, under which difference between the sinusoidal function graph and the empirical curve is minimum.

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“…В этом случае возможно применение магнитных методов контроля, которые успешно применяются для определения работоспособности, ресурса и предельного состояния металла [3][4][5][6] Наиболее приемлемым методом для решения указанных выше проблем, на наш взгляд, является контроль равномерности затяжки методом остаточной намагниченности [1] с использованием индикатора механического напряжения металла ИН-01м сканирующего типа, поскольку он обладает рядом преимуществ перед другими: -прибор имеет небольшие размеры, что позволяет применять его как в цеховых, так и в полевых условиях; -обладает высокой локальностью и производительностью магнитного контроля НДС металла; -возможен контроль усилия затяжки болтов или шпилек, как при монтаже (сборки), так и во время эксплуатации оборудования при существенной ограниченности рабочего пространства; -имеет небольшую погрешность измерения; -прибор имеет широкую область применения и большие функциональные возможности (автоматическая регистрация результатов магнитного контроля и запись в электронную память, передача результатов измерений на персональный компьютер с программным обеспечением для анализа, интерпретация и оформления результатов контроляформирование таблиц, графиков и контурных диаграмм.…”

Section: Introductionunclassified

Magnetic Inspection for Assessing the Uniformity of Flange Joints Bolt Tightening

2018

RIJIE

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Computational and Experimental Definition of Limit State of the Material of Shell Structures Subjected to Low-Cycle Loading

Cited by 9 publications

References 0 publications

Estimation of the Limit State Criterion for Steels C1020 and A 516-55 with V-Notch under Quasistatic Loading Using Acoustic Emission Control

Estimation of the Limit State Criterion for Steels C1020 and A 516-55 with V-Notch under Quasistatic Loading Using Acoustic Emission Control

Influence of Alternating Current Frequency on Output Voltage at Electromagnetic Method of Metal Control

Magnetic Inspection for Assessing the Uniformity of Flange Joints Bolt Tightening

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