e-Repository BATAN

Advanced Search

Fatigue properties of UFG low C, N, ferrite stainless steel produced by ECAP

Abiko, Masahiro and Miyamoto, Hiroyuki and Fujiwara, Hiroshi and Rifai, Muhammad (2015) Fatigue properties of UFG low C, N, ferrite stainless steel produced by ECAP. Proceeding Processing and Fabrication of Advanced Material XXIV.

[img]
Preview
Text
022.pdf - Published Version
Available under License Creative Commons Attribution Non-commercial Share Alike.

Download (359kB) | Preview
Official URL: No Link

Abstract

Grain fragmentation is essential for higher hardness and strength of metallic materials. As a technique of achieving ultrafine grain (UFG) structures, severe plastic deformation (SPD) which can give materials huge strain has attracted attention, and mechanism of UFG formation by SPD has been studied intensively. Equal Channel Angular Pressing (ECAP) is a type of SPD used to produce UFG material. The majority of papers on SPD materials have been devoted to the face-centered cubic (FCC) materials such as Al, Cu and Ni, but there had been limited papers for body-centered cubic (BCC) metals. For structural materials, fatigue strength is another important mechanical property in addition to strength and ductility from a practical viewpoint. Failure mechanism initiating from a crack formation and propagation in materials produced by ECAP under cyclic deformation has not well been studied. From this background, the final goal of this study is to clarify fatigue behavior and fracture mechanism for ultrafine grained low C, N, Fe-Cr steel produced by ECAP. It was found that in one-pass ECAPed sample, a crack initiated at a slip band which formed parallel to the shear plane of ECAP. It was contrasted with annealed coarse grained samples, where a crack formed at persistent slip band. These phenomenon can be explained in terms of the difference of annealed and one-pass ECAPed microstructure.

Item Type: Article
Subjects: Daur Bahan Bakar Nuklir dan Bahan Maju > Bahan Struktur dan Bahan Maju > Teknik Sintesis Bahan Struktur
Divisions: Pusat Sains dan Teknologi Bahan Maju
Depositing User: EDITOR PSTBM BATAN
Date Deposited: 18 May 2018 01:44
Last Modified: 18 May 2018 01:44
URI: http://repo-nkm.batan.go.id/id/eprint/1269

Actions (login required)

View Item View Item