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https://hdl.handle.net/20.500.14094/90006005

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メタデータID
90006005
アクセス権
open access
出版タイプ
Version of Record
タイトル
Dynamic fracture of tantalum under extreme tensile stress
著者
Albertazzi, Bruno ; Ozaki, Norimasa ; Zhakhovsky, Vasily ; Faenov, Anatoly ; Habara, Hideaki ; Harmand, Marion ; Hartley, Nicholas ; Ilnitsky, Denis ; Inogamov, Nail ; Inubushi, Yuichi ; Ishikawa, Tetsuya ; Katayama, Tetsuo ; Koyama, Takahisa ; Koenig, Michel ; Krygier, Andrew ; Matsuoka, Takeshi ; Matsuyama, Satoshi ; McBride, Emma ; Migdal, Kirill Petrovich ; Morard, Guillaume ; Ohashi, Haruhiko ; Okuchi, Takuo ; Pikuz, Tatiana ; Purevjav, Narangoo ; Sakata, Osami ; Sano, Yasuhisa ; Sato, Tomoko ; Sekine, Toshimori ; Seto, Yusuke ; Takahashi, Kenjiro ; Tanaka, Kazuo ; Tange, Yoshinori ; Togashi, Tadashi ; Tono, Kensuke ; Umeda, Yuhei ; Vinci, Tommaso ; Yabashi, Makina ; Yabuuchi, Toshinori ; Yamauchi, Kazuto ; Yumoto, Hirokatsu ; Kodama, Ryosuke
著者名
Albertazzi, Bruno
著者名
Ozaki, Norimasa
著者名
Zhakhovsky, Vasily
著者名
Faenov, Anatoly
著者名
Habara, Hideaki
著者名
Harmand, Marion
著者名
Hartley, Nicholas
著者名
Ilnitsky, Denis
著者名
Inogamov, Nail
著者名
Inubushi, Yuichi
著者名
Ishikawa, Tetsuya
著者名
Katayama, Tetsuo
著者名
Koyama, Takahisa
著者名
Koenig, Michel
著者名
Krygier, Andrew
著者名
Matsuoka, Takeshi
著者名
Matsuyama, Satoshi
著者名
McBride, Emma
著者名
Migdal, Kirill Petrovich
著者名
Morard, Guillaume
著者名
Ohashi, Haruhiko
著者名
Okuchi, Takuo
著者名
Pikuz, Tatiana
著者名
Purevjav, Narangoo
著者名
Sakata, Osami
著者名
Sano, Yasuhisa
著者名
Sato, Tomoko
著者名
Sekine, Toshimori
著者ID
A0729
研究者ID
1000010399818
KUID
https://kuid-rm-web.ofc.kobe-u.ac.jp/search/detail?systemId=31f0c167c5d9634a520e17560c007669
著者名
Seto, Yusuke
瀬戸, 雄介
セト, ユウスケ
所属機関名
理学研究科
著者名
Takahashi, Kenjiro
著者名
Tanaka, Kazuo
著者名
Tange, Yoshinori
著者名
Togashi, Tadashi
著者名
Tono, Kensuke
著者名
Umeda, Yuhei
著者名
Vinci, Tommaso
著者名
Yabashi, Makina
著者名
Yabuuchi, Toshinori
著者名
Yamauchi, Kazuto
著者名
Yumoto, Hirokatsu
著者名
Kodama, Ryosuke
言語
English (英語)
収録物名
Science Advances
巻(号)
3(6)
ページ
e1602705-e1602705
出版者
American Association for the Advancement of Science
刊行日
2017-06
公開日
2019-05-22
抄録
The understanding of fracture phenomena of a material at extremely high strain rates is a key issue for awide variety of scientific research ranging from applied science and technological developments to fundamental science such as lasermatter interaction and geology. Despite its interest, its study relies on a fine multiscale description, in between the atomic scale and macroscopic processes, so far only achievable by large-scale atomic simulations. Direct ultrafast realtime monitoring of dynamic fracture ( spallation) at the atomic lattice scale with picosecond time resolution was beyond the reach of experimental techniques. We show that the coupling between a high-power optical laser pump pulse and a femtosecond x-ray probe pulse generated by an x-ray free electron laser allows detection of the lattice dynamics in a tantalumfoil at an ultrahigh strain rate of epsilon similar to 2 x 10(8) to 3.5 x 10(8) s(-1). A maximal density drop of 8 to 10%, associatedwith the onset of spallation at a spall strength of similar to 17 GPa, was directlymeasured using x-ray diffraction. The experimental results of density evolution agree well with large-scale atomistic simulations of shock wave propagation and fracture of the sample. Our experimental technique opens a new pathway to the investigation of ultrahigh strain-rate phenomena in materials at the atomic scale, including high-speed crack dynamics and stress-induced solid-solid phase transitions.
キーワード
Dynamic fracture
spallation
XFEL
Shock wave
Laser
Atomic scale
カテゴリ
理学研究科
学術雑誌論文
権利
© 2017 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.
CC license
Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).
関連情報
DOI
https://doi.org/10.1126/sciadv.1602705