Determination of high-gradient components of residual stress by data of test hole drilling method

Karakozov, Egor; Одинцев, И. Н.; Plotnikov, A. S.; Plugatar, T. P.

doi:10.1088/1757-899x/747/1/012019

Cited by 4 publications

(2 citation statements)

References 12 publications

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“…Определение неоднородных в плоскости остаточных упругих напряжений. В работах одного из авторов [9,10] проводится обобщение рассмотренного выше метода на случай неоднородных в плоскости напряжений. Предлагается уравнения (2) дополнить членами с производными от главных компонент тензора напряжений σ 1 (z), σ 2 (z) таким образом:…”

Section: рисunclassified

“…Решение этой системы ищется методом наименьших квадратов. Путем численных экспериментов может быть произведена статистическая оценка минимальных уровней компонент градиентов остаточных напряжений, при которых их необходимо учитывать в выражениях (10). По этому методу обработан ряд интерферограмм.…”

Section: рисunclassified

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Identification method for inhomogeneous fields of residual stresses

Завойчинская¹,

Zavoychinskaya

Plotnikov³

2023

Vestnik Moskov. Univ. Ser. 1. Mat. Mekh.

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Представляется численно-аналитический метод определения трехмерного неоднородного поля упругих остаточных напряжений по данным оптических измерений компонент вектора перемещений при пошаговом сверлении отверстий. Определяющие соотношения для компонент вектора перемещений как функций трех переменных (в плоскости отверстия и по его глубине) записываются в виде интегральных операторов Вольтерры. Дается алгоритм нахождения базовых функций. Восстановленные по предложенному методу компоненты тензора напряжений хорошо согласуются с известным решением задачи, в которой остаточное напряженное состояние сформировано изгибом бруса из упруго-идеальнопластического материала.

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Section: рисunclassified

Identification method for inhomogeneous fields of residual stresses

Завойчинская¹,

Zavoychinskaya

Plotnikov³

2023

Vestnik Moskov. Univ. Ser. 1. Mat. Mekh.

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On the Features of Inhomogeneous Residual Stress Identification Using the Digital Speckle Interferometry and the Hole-Drilling Method

Plotnikov,

Zavoychinskaya

2024

Inorg Mater

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On the features of inhomogeneous residual stress identification using the digital speckle interferometry and the hole-drilling method

Plotnikov,

Zavoychinskaya

2023

Zavod. lab., Diagn. mater.

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A phenomenological approach to the actual problem of determining the inhomogeneous residual stress-strain state in the components of high-tech engineering systems at the stages of their design and operation is presented. The approach is based on physical and mechanical methods of measuring displacements. Current physical models describe the physical regularities of the residual states attributed to changes in the structure by the interaction of defects and dislocations in the field of micro- and meso-stresses. At the same time, there are the problems of the transition to the macrolevel, the construction of multilevel models, and the conversion of these models in engineering practice. In the framework of phenomenological approaches, in the general case, the solution of this problem requires the solution of three-dimensional inverse problems of thermoelasticity. A well-known mechanical method for determining a uniform field of residual elastic stresses recommended by ASTM E837 is described. The method proposed earlier by one of the authors for determining an inhomogeneous (in the plane) field of residual elastic stresses is discussed. A method of the three-dimensional inhomogeneous residual elastic stress-strain state determination based on the experimental determination of the displacement vector components by the method of step-by-step point hole-drilling and data of digital speckle interferometry and digital image correlation is developed. The constitutive relations for the components of the displacement vector are written in the form of Volterra integral operators. The basic operator functions are the functions of four variables, i.e., the coordinates of the cylindrical system (r, θ, z) associated with the hole, and the hole depth h. A method for verification of the basic functions is presented. The problem is reduced to the determination of three displacement functions of three variables: hole radius r, h, and z. Numerical simulation of basic functions is carried out. The obtained results are consistent with the known experimental data and calculated values of the deformation on the surface depending on the depth of the hole according to the ASTM E837 Standard.

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Determination of high-gradient components of residual stress by data of test hole drilling method

Cited by 4 publications

References 12 publications

Identification method for inhomogeneous fields of residual stresses

Identification method for inhomogeneous fields of residual stresses

On the Features of Inhomogeneous Residual Stress Identification Using the Digital Speckle Interferometry and the Hole-Drilling Method

On the features of inhomogeneous residual stress identification using the digital speckle interferometry and the hole-drilling method

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