Temperature Effect on Deformation and Fracture Mechanisms under Impact Loading of 17Mn1Si Steel with Explicit Accounting Structural Heterogeneity

Abstract

The effect of the microstructure parameters as well as the testing temperature on the impact toughness of 17Mn1Si steel has been studied. The interrelation between the testing temperature during impact bending and deformation and fracture energy consumption has been studied. The relation between fracture energy characteristics at high-rate impact bending and the microstructure of the steel has been established. It is shown that the decrease of the testing temperature leads to almost linear reduction of the impact toughness.

Original language	English
Pages (from-to)	680-687
Number of pages	8
Journal	Procedia Engineering
Volume	187
DOIs	https://doi.org/10.1016/j.proeng.2017.04.432
Publication status	Published - 2017
Event	Transportation Science and Technology: Proceedings of the 10th International Scientific Conference, TRANSBALTICA 2017 - Vilnius, Lithuania Duration: 4 May 2017 → 5 May 2017

Keywords

failure
fracture
impact toughness
main pipeline
steel 17Mn1Si
transportation systems

ASJC Scopus subject areas

Engineering(all)

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10.1016/j.proeng.2017.04.432

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Temperature Effect on Deformation and Fracture Mechanisms under Impact Loading of 17Mn1Si Steel with Explicit Accounting Structural Heterogeneity. / Moiseenko, Dmitry; Maruschak, Pavlo; Panin, Sergey; Maksimov, Pavel; Vlasov, Ilya; Berto, Filippo; Vinogradov, Alexey; Schmauder, Siegfried; Prentkovskis, Olegas.

In: Procedia Engineering, Vol. 187, 2017, p. 680-687.

Research output: Contribution to journal › Article › peer-review

Moiseenko, Dmitry ; Maruschak, Pavlo ; Panin, Sergey ; Maksimov, Pavel ; Vlasov, Ilya ; Berto, Filippo ; Vinogradov, Alexey ; Schmauder, Siegfried ; Prentkovskis, Olegas. / Temperature Effect on Deformation and Fracture Mechanisms under Impact Loading of 17Mn1Si Steel with Explicit Accounting Structural Heterogeneity. In: Procedia Engineering. 2017 ; Vol. 187. pp. 680-687.

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title = "Temperature Effect on Deformation and Fracture Mechanisms under Impact Loading of 17Mn1Si Steel with Explicit Accounting Structural Heterogeneity",

abstract = "The effect of the microstructure parameters as well as the testing temperature on the impact toughness of 17Mn1Si steel has been studied. The interrelation between the testing temperature during impact bending and deformation and fracture energy consumption has been studied. The relation between fracture energy characteristics at high-rate impact bending and the microstructure of the steel has been established. It is shown that the decrease of the testing temperature leads to almost linear reduction of the impact toughness.",

keywords = "failure, fracture, impact toughness, main pipeline, steel 17Mn1Si, transportation systems",

author = "Dmitry Moiseenko and Pavlo Maruschak and Sergey Panin and Pavel Maksimov and Ilya Vlasov and Filippo Berto and Alexey Vinogradov and Siegfried Schmauder and Olegas Prentkovskis",

year = "2017",

doi = "10.1016/j.proeng.2017.04.432",

language = "English",

volume = "187",

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journal = "Procedia Engineering",

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note = "Transportation Science and Technology: Proceedings of the 10th International Scientific Conference, TRANSBALTICA 2017 ; Conference date: 04-05-2017 Through 05-05-2017",

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T1 - Temperature Effect on Deformation and Fracture Mechanisms under Impact Loading of 17Mn1Si Steel with Explicit Accounting Structural Heterogeneity

AU - Moiseenko, Dmitry

AU - Maruschak, Pavlo

AU - Panin, Sergey

AU - Maksimov, Pavel

AU - Vlasov, Ilya

AU - Berto, Filippo

AU - Vinogradov, Alexey

AU - Schmauder, Siegfried

AU - Prentkovskis, Olegas

PY - 2017

Y1 - 2017

N2 - The effect of the microstructure parameters as well as the testing temperature on the impact toughness of 17Mn1Si steel has been studied. The interrelation between the testing temperature during impact bending and deformation and fracture energy consumption has been studied. The relation between fracture energy characteristics at high-rate impact bending and the microstructure of the steel has been established. It is shown that the decrease of the testing temperature leads to almost linear reduction of the impact toughness.

AB - The effect of the microstructure parameters as well as the testing temperature on the impact toughness of 17Mn1Si steel has been studied. The interrelation between the testing temperature during impact bending and deformation and fracture energy consumption has been studied. The relation between fracture energy characteristics at high-rate impact bending and the microstructure of the steel has been established. It is shown that the decrease of the testing temperature leads to almost linear reduction of the impact toughness.

KW - failure

KW - fracture

KW - impact toughness

KW - main pipeline

KW - steel 17Mn1Si

KW - transportation systems

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