Effect of hydrogen concentration on fatigue crack growth behaviour in pipeline steel IM Dmytrakh, RL Leshchak, AM Syrotyuk, RA Barna International Journal of Hydrogen Energy 42 (9), 6401-6408, 2017 | 66 | 2017 |
Relationship between fatigue crack growth behaviour and local hydrogen concentration near crack tip in pipeline steel IM Dmytrakh, OD Smiyan, AM Syrotyuk, OL Bilyy International Journal of Fatigue 50, 26-32, 2013 | 53 | 2013 |
Effect of hydrogen concentration on strain behaviour of pipeline steel IM Dmytrakh, RL Leshchak, AM Syrotyuk international journal of hydrogen energy 40 (10), 4011-4018, 2015 | 45 | 2015 |
Corrosion resistance of steel of the frames of boom sprayers RL Leshchak, ÀV Babii, RÀ Barna, ÀÌ Syrotyuk Materials Science 56, 425-431, 2020 | 29 | 2020 |
Methods for the evaluation of fracture and strength of pipeline steels and structures under the action of working media. Part 2. Influence of hydrogen-containing media ÀÌ Syrotyuk, IM Dmytrakh Materials Science 50, 475-487, 2015 | 26 | 2015 |
Methods for the evaluation of fracture and strength of pipeline steels and structures under the action of working media. Part ². Influence of the corrosion factor ÀM Syrotyuk, IM Dmytrakh Materials Science 50, 324-339, 2014 | 22 | 2014 |
A method for the assessment of the serviceability and fracture hazard for structural elements with cracklike defects VV Panasyuk, IM Dmytrakh, L Toth, OL Bilyi, AM Syrotyuk Materials Science 49, 565-576, 2014 | 18 | 2014 |
Specific features of the deformation and fracture of low-alloy steels in hydrogen-containing media: Influence of hydrogen concentration in the metal ²Ì Dmytrakh, AÌ Syrotyuk, RL Leshchak Materials Science 54, 295-308, 2018 | 15 | 2018 |
Specific mechanism of hydrogen influence on deformability and fracture of low-alloyed pipeline steel I Dmytrakh, A Syrotyuk, R Leshchak Procedia Structural Integrity 36, 298-305, 2022 | 14 | 2022 |
Corrosion-fatigue crack-growth resistance of steel of the frame of a sprayer boom ÀÌ Syrotyuk, ÀV Babii, RÀ Barna, RL Leshchak, PÎ Marushchak Materials Science 56 (4), 466-471, 2021 | 12 | 2021 |
Influence of sodium nitrite concentration in aqueous corrosion solution on fatigue crack growth in carbon pipeline steel IM Dmytrakh, RL Leshchak, AM Syrotyuk International Journal of Fatigue 128, 105192, 2019 | 12 | 2019 |
Experimental and analytic investigation of the hydrogenation of pipe steels ÀÌ Syrotyuk, RL Leshchak, ̲ Dorosh Materials Science 53, 811-817, 2018 | 11 | 2018 |
Influence of the bulk concentration of hydrogen in the metal on the specific features of deformation of low-alloy pipe steel ²M Dmytrakh, RL Leshchak, AM Syrotyuk, ÎL Lutyts’ kyi Materials Science 50, 170-178, 2014 | 11 | 2014 |
Experimental study of fatigue crack growth in pipeline steel under hydrogenating conditions IM Dmytrakh, AM Syrotyuk, OD Smiyan 18th European Conference on Fracture: Fracture of Materials and Structures …, 2010 | 11 | 2010 |
Model of surface fatigue crack nucleation as result of corrosion deformation interactions IM Dmytrakh, AM Syrotyuk, RS Hrabovskyi Proc. of the 14th Europ. Conf. on Fracture (Cracow, Poland, September 2002 …, 2002 | 9 | 2002 |
Êîðîç³éíà òðèâê³ñòü ïîêðèòòÿ êàðêàñà øòàíãè ñ³ëüñüêîãîñïîäàðñüêîãî îáïðèñêóâà÷à ÐË Ëåùàê, À Áàá³é, ÐÀ Áàðíà, Ì Áàá³é, ÐÑ Ã³ðÿê, ÀÌ Ñèðîòþê Ô³çèêî-õ³ì³÷íà ìåõàí³êà ìàòåð³àë³â 58 (2), 116-121, 2022 | 8 | 2022 |
Experimental study of low concentration diffusible hydrogen effect on mechanical behaviour of carbon steel IM Dmytrakh, RL Leshchak, AM Syrotyuk International Conference on Theoretical, Applied and Experimental Mechanics …, 2020 | 8 | 2020 |
Specific effects of hydrogen concentration on resistance to fracture of ferrite-pearlitic pipeline steels I Dmytrakh, A Syrotyuk, R Leshchak Procedia Structural Integrity 16, 113-120, 2019 | 5 | 2019 |
Êðèòå𳿠îö³íêè ðèçèêó êîðîç³éíî-âòîìíîãî ðóéíóâàííÿ æèâèëüíèõ òðóáîïðîâîä³â åíåðãîáëîê³â ÒÅÑ ÎË Á³ëèé, ÀÌ Ñèðîòþê ³ñíèê Íàö. òåõí. óí-òó “Õϲ”. Òåìàòè÷íèé âèï.“Õ³ì³ÿ, õ³ì³÷íà òåõíîëîã³ÿ òà …, 2008 | 5 | 2008 |
Ìåòîäè îö³íþâàííÿ ðóéíóâàííÿ òà ì³öíîñò³ òðóáîïðîâ³äíèõ ñòàëåé òà êîíñòðóêö³é çà 䳿 ðîáî÷èõ ñåðåäîâèù. ×. 1. Âïëèâ êîðîçèâíîãî ÷èííèêà ÀÌ Ñèðîòþê, ²Ì Äìèòðàõ Ô³çèêî-õ³ì³÷íà ìåõàí³êà ìàòåð³àë³â, 2014 | 4 | 2014 |