S.V. Petinov scite author profile

S.V. Petinov

5Publications

15Citation Statements Received

0Citation Statements Given

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Fatigue of Fillet-welded Joint Assessment by the FEA Simulation of Damage Accumulation

Guchinsky¹,

Petinov²

2011

MCE

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Fatigue strength evaluation of non-continuous incomplete penetration fillet-welded joints transferring stress flow by the S-N criteria incorporating the «Hot-spot stress» or «Notch-stress» approaches is dubious since the characteristic stress at the crack initiation location is not established by the rules for fatigue design. Application of the linear fracture mechanics (LMF) technique meets a problem of numerical modeling the crack three-dimensional shape and front extension, which becomes insoluble when the crack approaches the outer surface of weld bead and propagates along the seam. Apart from that, considering material plasticity beyond the initial phase of crack extensions from the cavity is off the frames of the principles of the LMF.An approach based on the FEA simulation of fatigue damage accumulation is suggested and applied to evaluate the crack initiation at the cavity and propagation in the non-continuous fillet-welded joint. The crack initiation at the cavity, its three-dimensional shape formation and evolution are simulated taking into account the elastic-plastic cyclic deformation of weld material until almost complete failure of the joint. The results of analysis are in good agreement with published experimental data

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Numerical simulation of damage accumulation and fatigue crack growth in elastic materials

Korolev¹,

Petinov²,

Freidin³

2009

Comp. Contin. Mech.

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В работе подробно рассмотрены проблемы использования критерия инкубационного времени в качестве критерия хрупкого разрушения в конечно-элементных расчетах. Приведен ряд примеров численных расчетов задач динамики разрушения с использованием критерия инкубационного времени. Доказана применимость такого подхода для предсказания инициации, развития и остановки динамического разрушения.

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Assessment of fatigue strength of weld root in ship structure: an approximate procedure

Petinov¹,

Kim²,

Paik³

2006

Ships and Offshore Structures

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Damage identity in fatigue assessment of structures

Guchinsky¹,

Сидоренко²,

Petinov³

2016

MCE

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Fatigue assessment of tubular structures

Petinov¹,

Guchinsky²

2013

MCE

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S.V. Petinov

Fatigue of Fillet-welded Joint Assessment by the FEA Simulation of Damage Accumulation

Numerical simulation of damage accumulation and fatigue crack growth in elastic materials

Assessment of fatigue strength of weld root in ship structure: an approximate procedure

Damage identity in fatigue assessment of structures

Fatigue assessment of tubular structures

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