Combined effect of interstitial-substitutional elements on dislocation dynamics in nitrogen-added austenitic stainless steels
-
- Kawahara, Yasuhito
- Department of Materials, Kyushu University
-
- Kobatake, Shunya
- Department of Materials, Kyushu University
-
- Kaneko, Kenji
- Department of Materials, Kyushu University
-
- Sasaki, Taisuke
- National Institute for Materials Science
-
- Ohkubo, Tadakatsu
- National Institute for Materials Science
-
- Takushima, Chikako
- Research & Development Center, Nippon Steel Stainless Steel Corporation
-
- Hamada, Jun-ichi
- Research & Development Center, Nippon Steel Stainless Steel Corporation
Abstract
Combined addition of interstitial-substitutional elements has been acknowledged to contribute to the increase in the strengths of steels. For further improvements in mechanical properties, their atomic-scale interaction mechanisms with dislocations are required to be examined. In this study, both high-resolution transmission electron microscopy and atom-probe tomography were used to correlate interstitial-substitutional elements with dislocation characteristics in austenitic stainless steels. Three types of dislocation core structures are identified and associated with their strain fields as well as N and Cr atoms in the N-added steels. It is revealed that N atoms interact elastically with the dislocations, followed by the segregation of Cr atoms via the chemical interaction between N and Cr atoms. This insight significantly improves the understanding of the multiple alloying mechanism in metallic materials such as interstitial alloys and high-entropy alloys.
Journal
-
- scientific reports
-
scientific reports 14 4360-, 2024-02-22
Springer
- Tweet
Details 詳細情報について
-
- CRID
- 1050299362554034560
-
- ISSN
- 20452322
-
- HANDLE
- 2324/7169330
-
- Text Lang
- en
-
- Article Type
- journal article
-
- Data Source
-
- IRDB