Microstructure, Nano-, and Macro-Indentation Characterization of AISI 302 Steel After High-Temperatures Aging-Reference-Cited by-同舟云学术

Microstructure, Nano-, and Macro-Indentation Characterization of AISI 302 Steel After High-Temperatures Aging

Published:2023-12-02 Issue:4 Volume: Page:267-273
ISSN:2312-4539
Container-title:East European Journal of Physics
language:
Short-container-title:East Eur. J. Phys.

Author:

Ben Lenda Omar^ORCID,El Ganich Hajar^ORCID,Saad El Madani^ORCID

Abstract

The structural and mechanical studies of the AISI 302 steel aim to design a correct heat treatment in order to optimize its mechanical properties. In this study, we investigated the influence of temperature and time of aging on the structural and mechanical characteristics of the AISI 302 steel. The steel was aged at temperatures of 1100°C and 1200°C and for times ranging from 0 to 6000 minutes. The structural and mechanical characterization techniques used were the metallurgical microscope, nanoindentation technique, and macro-hardness test. At the microstructural level, an increase in the time or temperature of the aging contributed to an increase in the austenite grains size of AISI 302 steel. This microstructural change led to a decrease in the nanohardness and a drop in the macro-hardness between the unaged and aged conditions of AISI 302 steel.

Publisher

V. N. Karazin Kharkiv National University

Subject

General Physics and Astronomy,General Materials Science

Reference41 articles.

1. J.K.L. Lai, C.H. Shek, and K.H. Lo, Stainless steels: An introduction and their recent developments, (Bentham Science Publishers, Beijing, China, 2012), pp. 23.

2. J. R. Davis, Alloy digest sourcebook: stainless steels, (ASM international, Materials Park, Ohio, USA, 2000), p. 7.

3. S. L. Chawla, Materials selection for corrosion control, (ASM international, Materials Park, Ohio, USA, 1993), p. 117.

4. F. Cardarelli, Materials Handbook: A Concise Desktop Reference, 2nd ed. (Springer Science & Business Media, London, UK, 2008), p. 102.

5. N.A. Savinkov, O.M. Bulanchuk, and A.A. Bizyukov, East. Eur. J. Phys. 3, 102 (2021). https://doi.org/10.26565/2312-4334-2021-3-16