ジャーナル論文 Interface Rotation in Accumulative Rolling Bonding (ARB) Cu/Nb Nanolaminates Under Constrained and Unconstrained Loading Conditions as Revealed by In Situ Micromechanical Testing
Rahul Sahay (author) (この著者で検索)
ORCID https://orcid.org/0000-0002-0019-0153 (unauthenticated)
ORCID ;
Ihor Radchenko (author) (この著者で検索)
;
Pavithra Ananthasubramanian (author) (この著者で検索)
;
Christian Harito (author) (この著者で検索)
; ORCID SAMURAI ;
Koki Yasuda (author) (この著者で検索)
;
Takayuki Shiraiwa (author) (この著者で検索)
;
Mark Jhon (author) (この著者で検索)
;
Rachel Speaks (author) (この著者で検索)
;
Derrick Speaks (author) (この著者で検索)
ORCID https://orcid.org/0000-0003-3540-1720 (unauthenticated)
ORCID ;
Kangjae Lee (author) (この著者で検索)
;
Manabu Enoki (author) (この著者で検索)
;
Nagarajan Raghavan (author) (この著者で検索)
;
Arief Suriadi Budiman (author) (この著者で検索)
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引用
Rahul Sahay, Ihor Radchenko, Pavithra Ananthasubramanian, Christian Harito, Fabien Briffod, Koki Yasuda, Takayuki Shiraiwa, Mark Jhon, Rachel Speaks, Derrick Speaks, Kangjae Lee, Manabu Enoki, Nagarajan Raghavan, Arief Suriadi Budiman. Interface Rotation in Accumulative Rolling Bonding (ARB) Cu/Nb Nanolaminates Under Constrained and Unconstrained Loading Conditions as Revealed by In Situ Micromechanical Testing. Nanomaterials. 2025, 15 (19), . https://doi.org/10.3390/nano15191528

説明:

(abstract)

Accumulative Rolling Bonding (ARB) Cu/Nb Nanolaminates have been widely observed to exhibit unique and sheer amount of interface-based plasticity mechanisms, and these have been associated with the many extraordinary properties of the material system, especially resistances in extreme engineering environments (mechanical/pressure, thermal, irradiation, etc.) and self-healing ability from defects (microstructural, as well as radiation-induced). Recently, anisotropy in the interface shearing mechanisms in the material system have been observed and much discussed. The Cu/Nb nanolaminates appear to shear on the interface planes to a much larger extent in the Transverse Direction (TD), compared to the Rolling Direction (RD) of the ARB process. Related to that, in this present study we observe interface rotation in Cu/Nb ARB nanolaminates under constrained and unconstrained loading conditions. Both have nominally primary driving forces for interface shearing only in one particular direction, ie. RD, but additional shearing in TD was evident. This is significant as it represents an interface rotation, while there was no external rotational driving force. First, we observed interface rotation in in situ rectangular micropillar compression experiments, where the interface is simply sheared in one particular direction only, ie. in RD.

権利情報:

キーワード: multilayers, nanolaminates, interface-based plasticity mechanism, nanoplasticity

刊行年月日: 2025-10-07

出版者: MDPI AG

掲載誌:

  • Nanomaterials (ISSN: 20794991) vol. 15 issue. 19

研究助成金:

  • Oregon Renewable Energy Center OREC2024/060/HPPT
  • e-ASIA Joint Research Program JSPS KAKENHI Grant No. 23H04464
  • e-ASIA Joint Research Program JST SICORP Grant No. JPMJSC21E1
  • A*STAR A18B1b0061
  • the Agence Nationale de la Recherche (ANR) of the French government ANR18-09CE-003801
  • the National Research Foundation (NRF) of the Singaporean government NRF2018-NRF-ANR042
  • Oregon Renewable Energy Center OREC2023/060/WIND

原稿種別: 出版者版 (Version of record)

MDR DOI:

公開URL: https://doi.org/10.3390/nano15191528

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更新時刻: 2025-10-28 12:30:21 +0900

MDRでの公開時刻: 2025-10-28 12:16:21 +0900

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