Iryna Danyliuk scite author profile

Iryna Danyliuk

5Publications

62Citation Statements Received

62Citation Statements Given

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Ternopil Ivan Pului National Technical University

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Low temperature impact toughness of the main gas pipeline steel after long-term degradation

Maruschak

Danyliuk

Бищак

et al. 2014

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Abstract:The correlation of microstructure, temperature and Charpy V-notch impact properties of a steel 17G1S pipeline steel was investigated in this study. Within the concept of physical mesomechanics, the dynamic failure of specimens is represented as a successive process of the loss of shear stability, which takes place at different structural/scale levels of the material. Characteristic stages are analyzed for various modes of failure, moreover, typical levels of loading and oscillation periods, etc. are determined. Relations between low temperature derived through this test, microstructures and Charpy (V-notch) toughness test results are also discussed in this paper.

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Degradation of the Main Gas Pipeline Material and Mechanisms of Its Fracture

Maruschak

Danyliuk

Prentkovskis

et al. 2014

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The effect of the in-service scattered damage in the pipe wall metal is evaluated, and the effect of hydrogen absorbed by metal on the variation of the structure and mechanical properties of the main gas pipeline after a long-term operation is found. The main regularities in the graded nature of the static deformation process and the effect of hydrogenation on the scattered damage and fracture accumulation are found.

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Fatigue and failure of steel of offshore gas pipeline after the laying operation

Poberezhny

Maruschak

Prentkovskis

et al. 2016

Archives of Civil and Mechanical Engineering

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Structural levels of fatigue failure and damage estimation in 17Mn1Si steel on the basis of a multilevel approach of physical mesomechanics

et al. 2015

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Structural and mechanical defects of materials of offshore and onshore main gas pipelines after long-term operation

Maruschak

Panin

Danyliuk

et al. 2015

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The study has established the main regularities of a fatigue failure of offshore gas steel pipes installed using S-lay and J-lay methods.We have numerically analyzed the influence of preliminary deformation on the fatigue life of 09Mn2Si steel at different amplitudes of cyclic loading. The results have revealed the regularities of formation and development of a fatigue crack in 17Mn1Si steel after 40 years of underground operation. The quantitative analysis describes the regularities of occurrence and growth of fatigue cracks in the presence of a stress concentration.

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Iryna Danyliuk

Low temperature impact toughness of the main gas pipeline steel after long-term degradation

Degradation of the Main Gas Pipeline Material and Mechanisms of Its Fracture

Fatigue and failure of steel of offshore gas pipeline after the laying operation

Structural levels of fatigue failure and damage estimation in 17Mn1Si steel on the basis of a multilevel approach of physical mesomechanics

Structural and mechanical defects of materials of offshore and onshore main gas pipelines after long-term operation

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