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Journal

Acta Physica Polonica A

2015 | 128 | 4 | 527-529

Article title

Substructural Strengthening of Medium-Carbon Alloyed Steel with Preliminary Thermomechanical Processing

Authors

G. Kodzhaspirov , A. Rudskoy

Content

Full texts: http://przyrbwn.icm.edu.pl/APP/PDF/128/a128z4p13.pdf [remote]

Title variants

Languages of publication

EN

Abstracts

EN
Substructural strengthening result in preliminary thermomechanical processing, when applied cold deformation with the combination of post deformation annealing and induction hardening based on the of dislocation structure inheritance effect on the mechanical properties such as torsion static strength has been studied. Final heat treatment with the use of post deformation tempering followed by induction hardening and low temperature tempering demonstrated the highest static torsion strength in consequence of the inheritance of polygonal dislocation substructure of ferrite arised at the proper post deformation annealing temperature at preliminary thermomechanical processing by dislocation structure of austenite formed under followed induction hardening heating and then by dislocation substructure of martensite formed result in following quenching.

Keywords

EN

Discipline

Publisher

Institute of Physics, Polish Academy of Sciences

Journal

Acta Physica Polonica A

Year

2015

Volume

128

Issue

4

Pages

527-529

Physical description

Dates

published
2015-10

Contributors

author
G. Kodzhaspirov
  • St.Petersburg State Polytechnic University, 195251, St. Petersburg, Russia
author
A. Rudskoy
  • St.Petersburg State Polytechnic University, 195251, St. Petersburg, Russia

References

  • [1] C.M. Sellars, 50th Hatfield Memorial Lecture, The University of Sheffield, 2002
  • [2] I. Tamura, Trans. ISIJ 27, 763 (1987), doi: 10.2355/isijinternational1966.27.763
  • [3] G.E. Kodjaspirov (Kodzhaspirov), I. Kim, Advanced Strengthening Methods of Metallic Materials, St. Petersburg State Technical University, St. Petersburg 2000
  • [4] T. Sadasue, S. Suzuki, M. Suwa, S. Mitao, K. Takahashi, Mater. Sci. Forum 426-432, 1493 (2003), doi: 10.4028/www.scientific.net/MSF.426-432.1493
  • [5] G.E. Kodjaspirov (Kodzhaspirov), L.P. Karjalainen, M.O. Speidel, Mater. Manuf. Process 19, 87 (2004), doi: 10.1081/AMP-120027512
  • [6] G.E. Kodzhaspirov, A.I. Rudskoy, V.V. Rybin, Physical Fundamentals and Resource-Saving Technologies of Metal Products Manufacturing, Sci. Pub., St. Petersburg 2007
  • [7] G.A. Agas'yants, G.G. Semibratov, G.E. Kodjaspirov (Kodzhaspirov), Met. Sci. Heat Treat. 49, 29 (2007), doi: 10.1007/s11041-007-0005-x
  • [8] J.D. Verhoeven, Fundamentals of Physical Metallurgy, Iowa State University, 1975
  • [9] R.E. Reed-Hill, Physical Metallurgy Principles, University of Florida, 1992
  • [10] J. Skaret, F. Habrovec, J. Kounichy, P. Rys, J. Iron Steel Inst. 205, 3 (1967)

Document Type

Publication order reference

Identifiers

DOI
10.12693/APhysPolA.128.527

YADDA identifier

bwmeta1.element.bwnjournal-article-appv128n413kz
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