Publication result detail

Processing of medium carbon steel by hot pressing prior ECAP

ZRNÍK, J.; ŠVEJCAR, J.

Original Title

Processing of medium carbon steel by hot pressing prior ECAP

English Title

Processing of medium carbon steel by hot pressing prior ECAP

Type

Peer-reviewed article not indexed in WoS or Scopus

Original Abstract

Medium carbon steel prior to subjecting severe plastic deformation was thermomechanically treated in order to modified the initial grain size and morphology of cementite particles. The further structure modification of the steel was obtained during the equal channel angular pressing at increased temperature using the effective strain 3. The thermal stability qnd mechanical properties of the deformed steel were related to ultrafine grained structure development. Medium carbon steel prior to subjecting severe plastic deformation was thermomechanically treated in order to modified the initial grain size and morphology of cementite particles. The further structure modification of the steel was obtained during the equal channel angular pressing at increased temperature using the effective strain 3. The thermal stability qnd mechanical properties of the deformed steel were related to ultrafine grained structure development. Medium carbon steel prior to subjecting severe plastic deformation was thermomechanically treated in order to modified the initial grain size and morphology of cementite particles. The further structure modification of the steel was obtained during the equal channel angular pressing at increased temperature using the effective strain 3. The thermal stability qnd mechanical properties of the deformed steel were related to ultrafine grained structure development. Medium carbon steel prior to subjecting severe plastic deformation was thermomechanically treated in order to modified the initial grain size and morphology of cementite particles. The further structure modification of the steel was obtained during the equal channel angular pressing at increased temperature using the effective strain 3. The thermal stability qnd mechanical properties of the deformed steel were related to ultrafine grained structure development. Medium carbon steel prior to subjecting severe plastic deformation was thermomechanically treated in order to modified the initial grain size and morphology of cementite particles. The further structure modification of the steel was obtained during the equal channel angular pressing at increased temperature using the effective strain 3. The thermal stability qnd mechanical properties of the deformed steel were related to ultrafine grained structure development.

English abstract

Medium carbon steel prior to subjecting severe plastic deformation was thermomechanically treated in order to modified the initial grain size and morphology of cementite particles. The further structure modification of the steel was obtained during the equal channel angular pressing at increased temperature using the effective strain 3. The thermal stability qnd mechanical properties of the deformed steel were related to ultrafine grained structure development. Medium carbon steel prior to subjecting severe plastic deformation was thermomechanically treated in order to modified the initial grain size and morphology of cementite particles. The further structure modification of the steel was obtained during the equal channel angular pressing at increased temperature using the effective strain 3. The thermal stability qnd mechanical properties of the deformed steel were related to ultrafine grained structure development. Medium carbon steel prior to subjecting severe plastic deformation was thermomechanically treated in order to modified the initial grain size and morphology of cementite particles. The further structure modification of the steel was obtained during the equal channel angular pressing at increased temperature using the effective strain 3. The thermal stability qnd mechanical properties of the deformed steel were related to ultrafine grained structure development. Medium carbon steel prior to subjecting severe plastic deformation was thermomechanically treated in order to modified the initial grain size and morphology of cementite particles. The further structure modification of the steel was obtained during the equal channel angular pressing at increased temperature using the effective strain 3. The thermal stability qnd mechanical properties of the deformed steel were related to ultrafine grained structure development. Medium carbon steel prior to subjecting severe plastic deformation was thermomechanically treated in order to modified the initial grain size and morphology of cementite particles. The further structure modification of the steel was obtained during the equal channel angular pressing at increased temperature using the effective strain 3. The thermal stability qnd mechanical properties of the deformed steel were related to ultrafine grained structure development.

Keywords

ECAP,medium carbon steel

Key words in English

ECAP,medium carbon steel

Authors

ZRNÍK, J.; ŠVEJCAR, J.

Released

12.02.2005

Publisher

TMS

ISBN

1047-4838

Periodical

JOM

Volume

57

Number

2

State

United States of America

Pages from

231

Pages to

232

Pages count

2

BibTex

@article{BUT43863,
  author="Jozef {Zrník} and Jiří {Švejcar}",
  title="Processing of medium carbon steel by hot pressing prior ECAP",
  journal="JOM",
  year="2005",
  volume="57",
  number="2",
  pages="231--232",
  issn="1047-4838"
}