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PHYSICAL SIMULATION OF COLD ROLLING OF ULTRA-FINE GRAINED AL 5083 ALLOY TO STUDY MICROSTRUCTURE EVOLUTION. / Murashkin, M.Y.; Enikeev, N.A.; Kazykhanov, V.U.; Sabirov, I.; Valiev, R.Z.

в: Reviews on Advanced Materials Science, Том 35, № 1-2, 2013, стр. 75-85.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Murashkin, MY, Enikeev, NA, Kazykhanov, VU, Sabirov, I & Valiev, RZ 2013, 'PHYSICAL SIMULATION OF COLD ROLLING OF ULTRA-FINE GRAINED AL 5083 ALLOY TO STUDY MICROSTRUCTURE EVOLUTION', Reviews on Advanced Materials Science, Том. 35, № 1-2, стр. 75-85.

APA

Murashkin, M. Y., Enikeev, N. A., Kazykhanov, V. U., Sabirov, I., & Valiev, R. Z. (2013). PHYSICAL SIMULATION OF COLD ROLLING OF ULTRA-FINE GRAINED AL 5083 ALLOY TO STUDY MICROSTRUCTURE EVOLUTION. Reviews on Advanced Materials Science, 35(1-2), 75-85.

Vancouver

Murashkin MY, Enikeev NA, Kazykhanov VU, Sabirov I, Valiev RZ. PHYSICAL SIMULATION OF COLD ROLLING OF ULTRA-FINE GRAINED AL 5083 ALLOY TO STUDY MICROSTRUCTURE EVOLUTION. Reviews on Advanced Materials Science. 2013;35(1-2):75-85.

Author

Murashkin, M.Y. ; Enikeev, N.A. ; Kazykhanov, V.U. ; Sabirov, I. ; Valiev, R.Z. / PHYSICAL SIMULATION OF COLD ROLLING OF ULTRA-FINE GRAINED AL 5083 ALLOY TO STUDY MICROSTRUCTURE EVOLUTION. в: Reviews on Advanced Materials Science. 2013 ; Том 35, № 1-2. стр. 75-85.

BibTeX

@article{f0658ab918e34b19a147fb1bf7d99583,
title = "PHYSICAL SIMULATION OF COLD ROLLING OF ULTRA-FINE GRAINED AL 5083 ALLOY TO STUDY MICROSTRUCTURE EVOLUTION",
abstract = "Recent investigations have demonstrated that ultra-fine grained (UFG) Al 5xxx alloys have a significant potential for industrial applications due to their enhanced mechanical and functional properties. The Al 5xxx alloys often have to undergo hot/cold rolling metalforming operations for fabrication of near-net shape products since they are widely used in form of sheets in marine, transport, and chemical engineering. The development of hot/cold rolling routes for the UFG metallic materials are very expensive due to much higher cost of the UFG metallic materials and time consuming due to numerous experimental trials. The objective of this work is to perform physical simulation of cold rolling of the UFG Al 5083 alloy obtained via equal channel angular pressing with parallel channels and to analyze the effect of cold rolling on the microstucture and microhardness of the material. It is demonstrated that physical simulation of metalforming processes for the UFG metallic materials can significantly reduce the amou",
author = "M.Y. Murashkin and N.A. Enikeev and V.U. Kazykhanov and I. Sabirov and R.Z. Valiev",
year = "2013",
language = "English",
volume = "35",
pages = "75--85",
journal = "Reviews on Advanced Materials Science",
issn = "1606-5131",
publisher = "Институт проблем машиноведения РАН",
number = "1-2",

}

RIS

TY - JOUR

T1 - PHYSICAL SIMULATION OF COLD ROLLING OF ULTRA-FINE GRAINED AL 5083 ALLOY TO STUDY MICROSTRUCTURE EVOLUTION

AU - Murashkin, M.Y.

AU - Enikeev, N.A.

AU - Kazykhanov, V.U.

AU - Sabirov, I.

AU - Valiev, R.Z.

PY - 2013

Y1 - 2013

N2 - Recent investigations have demonstrated that ultra-fine grained (UFG) Al 5xxx alloys have a significant potential for industrial applications due to their enhanced mechanical and functional properties. The Al 5xxx alloys often have to undergo hot/cold rolling metalforming operations for fabrication of near-net shape products since they are widely used in form of sheets in marine, transport, and chemical engineering. The development of hot/cold rolling routes for the UFG metallic materials are very expensive due to much higher cost of the UFG metallic materials and time consuming due to numerous experimental trials. The objective of this work is to perform physical simulation of cold rolling of the UFG Al 5083 alloy obtained via equal channel angular pressing with parallel channels and to analyze the effect of cold rolling on the microstucture and microhardness of the material. It is demonstrated that physical simulation of metalforming processes for the UFG metallic materials can significantly reduce the amou

AB - Recent investigations have demonstrated that ultra-fine grained (UFG) Al 5xxx alloys have a significant potential for industrial applications due to their enhanced mechanical and functional properties. The Al 5xxx alloys often have to undergo hot/cold rolling metalforming operations for fabrication of near-net shape products since they are widely used in form of sheets in marine, transport, and chemical engineering. The development of hot/cold rolling routes for the UFG metallic materials are very expensive due to much higher cost of the UFG metallic materials and time consuming due to numerous experimental trials. The objective of this work is to perform physical simulation of cold rolling of the UFG Al 5083 alloy obtained via equal channel angular pressing with parallel channels and to analyze the effect of cold rolling on the microstucture and microhardness of the material. It is demonstrated that physical simulation of metalforming processes for the UFG metallic materials can significantly reduce the amou

M3 - Article

VL - 35

SP - 75

EP - 85

JO - Reviews on Advanced Materials Science

JF - Reviews on Advanced Materials Science

SN - 1606-5131

IS - 1-2

ER -

ID: 7411636