検索対象:     
報告書番号:
※ 半角英数字
 年 ~ 
 年

Intergranular strains of plastically deformed austenitic stainless steel

塑性変形したオーステナイト系ステンレス鋼の粒界ひずみ

鈴木 賢治*; 菖蒲 敬久

Suzuki, Kenji*; Shobu, Takahisa

弾性異方性をもつ材料中では、塑性変形が発生した際に結晶間に応力差が生じており、これが材料破壊に深くかかわっていることが知られている。本研究では、高エネルギー放射光回折法を用いて、塑性変形させた材料中の荷重方向の残留応力を結晶方位ごとに調べた。その結果、残留応力はX線的弾性定数(回折面ごとに求められるヤング率)が高い指数では引張残留応力、低い指数では圧縮残留応力が発生していることがわかった。この結果は、材料強度を向上させる際、集合組織のように結晶方位を制御する技術に役立つと考えている。

In materials with an elastic anisotropy, a stress difference is generated between crystals when plastic deformation occurs, and it is known that this is deeply involved in material fracture. In this study, the residual stress for load direction in the plastically deformed material was investigated for each crystal orientation using the high-energy synchrotron radiation diffraction method. As a result, it was found that the residual stress is a tensile residual stress at an index with a high X-ray elastic constant (Young's modulus obtained for each diffraction surface) and a compressive residual stress at an index with a low X-ray elastic constant. We believe that this result will be useful for the technique of controlling the crystal orientation like the texture as improving the material strength.

Access

:

- Accesses

InCites™

:

Altmetrics

:

[CLARIVATE ANALYTICS], [WEB OF SCIENCE], [HIGHLY CITED PAPER & CUP LOGO] and [HOT PAPER & FIRE LOGO] are trademarks of Clarivate Analytics, and/or its affiliated company or companies, and used herein by permission and/or license.