For Libraries For Publication Open Access Downloads About Us Contact Us
Paper Titles
Stages of Cavitation Erosion Development on Steel Surfaces
p.773
Computational and Experimental Methods of Strength Analysis of Polyurethane Diaphragms Operating under Cyclic Loadings
p.779
Influence of Surface Tension of the Intrapore Liquid on Structural-Surface Properties of Hydrated Aluminum Oxide Obtained by Interaction of Aluminum Salts with Ammonia Gas
p.787
Effect of Atmospheric Pressure Plasma in Inert Gases on Orthopedic Ultra-High Molecular Weight Polyethylene
p.795
Influence of Severe Plastic Deformations on Martensitic Transformation in Alloys of Fe-Cr-Ni System
p.802
Isothermal Transformation Diagrams of Austenite in Maraging Steel 08H15N5D2T at Overcooling
p.808
Influence of Curved Fibers on the Mechanical Behavior of Variable Stiffness Composites
p.814
Deformation Cycle Resistance of Titanium Nickelide - Polymer Composite Material
p.820
Determination of Rational Structural Parameters for Sandwich Panels with a Cone-Shaped Filler’s Cells
p.826

Influence of Severe Plastic Deformations on Martensitic Transformation in Alloys of Fe-Cr-Ni System

Article Preview

Abstract:

The article investigates influence of large plastic deformations created in the Bridgman anvils on the mechanical properties and microstructure of metastable alloys of the iron-chromium-nickel system of the austenitic-martensitic class. It is found that the application of deformation in the Bridgman anvils with a true logarithmic deformation e = 6-7 leads to formation of the α-phase (deformation martensite) with significantly higher mechanical properties compared to martensite formed during deformation by linear rolling. The authors reveal the differences in the microstructure of the alloy after deformation in the Bridgman anvils and deformation by rolling, which explain the discovered effect.

You might also be interested in these eBooks
Modern Trends in Materials Processing View Preview

Info:

Periodical:

Key Engineering Materials (Volume 910)

Pages:

802-807

DOI:

https://doi.org/10.4028/p-3g2085

Citation:

Cite this paper

Online since:

February 2022

Authors:

Elena N. Blinova*, Alexander M. Glezer, M.A. Libman, E.V. Pimenov

Keywords:

Electron Microscopy, Iron-Chromium-Nickel Alloys, Martensitic Transformation, Mechanical Properties, Microhardness, Microstructure, Severe Plastic Deformations

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2022 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

References

[1] P. Bridgeman. High pressure physics. - M.: ONTI NKTP, 1935. - 404 p.

Google Scholar

[2] R.Z. Valiev, I.V. Alexandrov. Nanostructured materials obtained by severe plastic deformation. - M.: Logos, 2000. – 272 p.

Google Scholar

[3] A. Hosokawa, H. Ohtsuka, and T. Li, Materials Transaction 55, 1286 (2014).

Google Scholar

[4] A. M. Glezer, A. A. Tomchuk, and A. G. Savchenko, Bulletin Russ. Acad. Sci. Phys. 80, 1021 (2016).

Google Scholar

[5] A. M. Glezer, M. A. Libman, I. A. Timshin, I. V. Shchetinin, E. S. Savchenko, A. A. Tomchuk. Letters to ZhETF. 108, 53 (2018).

Google Scholar

[6] V.V. Sagaradze, A.I. Uvarov. Hardening and properties of austenitic steels. - Yekaterinburg. RIO UB RAS, 2013. - 720 p.

Google Scholar

[7] A.P. Zhilyaev and T.G. Langdon, Prog. Mater. Sci. 53, 893 (2008).

Google Scholar

© 2025 Trans Tech Publications Ltd. All rights are reserved, including those for text and data mining, AI training, and similar technologies. For open access content, terms of the Creative Commons licensing CC-BY are applied.
Scientific.Net is a registered trademark of Trans Tech Publications Ltd.