Rchr
J-GLOBAL ID:202101002546856450   Update date: Nov. 01, 2024

Aizawa Kazuya

アイザワ カズヤ | Aizawa Kazuya
Affiliation and department:
Research theme for competitive and other funds  (5):
  • 精密構造解析によるキンク形成・強化のメカニズム解明
  • ミルフィーユ構造の材料科学(研究に関する総括)
  • シンクロ型LPSO構造材料科学の成果取りまとめと情報発信
  • シンクロ型LPSO構造の材料科学 -次世代軽量構造材料への革新的展開-
  • 量子線を用いた精密構造解析によるLPSO構造の材料特性発現機構の解明
Papers (76):
  • Vu TheDang*, Shishido Hiroaki*, Aizawa Kazuya, Oku Takayuki, Oikawa Kenichi, Harada Masahide, Kojima Kenji M*, Miyajima Shigeyuki*, Soyama Kazuhiko, Koyama Tomio*, et al. Application of energy-resolving neutron imaging to major-component analyses of materials using four-channel superconducting detector. IEEJ Transactions on Electrical and Electronic Engineering. 2024. 19. 11. 1888-1894
  • Vu TheDang*, Shishido Hiroaki*, Aizawa Kazuya, Oku Takayuki, Oikawa Kenichi, Harada Masahide, Kojima Kenji M*, Miyajima Shigeyuki*, Soyama Kazuhiko, Koyama Tomio*, et al. Neutron transmission imaging system with a superconducting kinetic inductance detector. Journal of Physics; Conference Series. 2024. 2776. 012009\_1-012009\_9
  • Ishida Takekazu*, Vu TheDang*, Shishido Hiroaki*, Aizawa Kazuya, Oku Takayuki, Oikawa Kenichi, Harada Masahide, Kojima Kenji M*, Miyajima Shigeyuki*, Koyama Tomio*, et al. Neutron transmission CB-KID imager using samples placed at room temperature. Journal of Low Temperature Physics. 2024. 214. 3-4. 152-157
  • Shishido Hiroaki*, Vu TheDang*, Aizawa Kazuya, Kojima Kenji M*, Koyama Tomio*, Oikawa Kenichi, Harada Masahide, Oku Takayuki, Soyama Kazuhiko, Miyajima Shigeyuki*, et al. Orientation mapping of YbSn$_{3}$ single crystals based on Bragg-dip analysis using a delay-line superconducting sensor. Journal of Applied Crystallography. 2023. 56. 4. 1108-1113
  • Harjo S., Gong W., Aizawa Kazuya, Kawasaki Takuro, Yamasaki Michiaki*. Strengthening of $\alpha$Mg and long-period stacking ordered phases in a Mg-Zn-Y alloy by hot-extrusion with low extrusion ratio. Acta Materialia. 2023. 255. 119029\_1-119029\_12
more...
MISC (26):
  • Harjo S., Gong W., Aizawa Kazuya, Yamasaki Michiaki*, Kawasaki Takuro. Deformation behavior of individual constituent phases and components in multimodal magnesium alloys. Nihon Zairyo Gakkai Dai-58-Kai X Sen Zairyo Kyodo Ni Kansuru Shimpojiumu Koen Rombunshu. 2024. 58-60
  • Gong W., Gholizadeh R.*, Kawasaki Takuro, Aizawa Kazuya, Harjo S. Cryogenic deformation behavior of a dual-phase Mg-Li alloy investigated by in-situ neutron diffraction. Magnesium Technology 2024. 2024. 89-90
  • Harjo S., Aizawa Kazuya, Kawasaki Takuro. Current status of neutron diffraction stress analysis at TAKUMI. Nihon Zairyo Gakkai Dai-53-Kai X Sen Zairyo Kyodo Ni Kansuru Shimpojiumu Koen Rombunshu. 2019. 88-90
  • Kajimoto Ryoichi, Nakamura Mitsutaka, Inamura Yasuhiro, Kamazawa Kazuya*, Ikeuchi Kazuhiko*, Iida Kazuki*, Ishikado Motoyuki*, Nakajima Kenji, Kawamura Seiko, Nakatani Takeshi, et al. Recent progress in the chopper spectrometer 4SEASONS at J-PARC. JAEA-Conf 2015-002. 2016. 319-329
  • Hemmi Tsutomu, Harjo S., Kajitani Hideki, Nabara Yoshihiro, Takahashi Yoshikazu, Nunoya Yoshihiko, Koizumi Norikiyo, Abe Jun, Gong W., Aizawa Kazuya, et al. Investigation of degradation mechanism of ITER CS conductor sample using TAKUMI. KEK Progress Report 2013-4. 2013. 45-47
more...
Patents (1):
  • 中性子を利用した非破壊的損傷評価方法
Lectures and oral presentations  (316):
  • Research trends and highlights in TAKUMI of J-PARC
    (4th J-PARC Symposium (J-PARC 2024))
  • Revealing deformation mechanisms at 21 K in AZ31 Mg alloy using TAKUMI
    (4th J-PARC Symposium (J-PARC 2024))
  • Deformation mechanisms of AZ31 magnesium alloy at 21K revealed by in-situ neutron diffraction
    (153rd TMS Annual Meeting \& Exhibition (TMS 2024))
  • Twinning and detwinning behavior of AZ31 magnesium alloy at 20K studied by in-situ neutron diffraction
    (2023年度量子ビームサイエンスフェスタ; 第15回MLFシンポジウム/第41回PFシンポジウム)
  • Activity of the MLF radiation safety team in FY2023
    (2023年度量子ビームサイエンスフェスタ; 第15回MLFシンポジウム/第41回PFシンポジウム)
more...
※ Researcher’s information displayed in J-GLOBAL is based on the information registered in researchmap. For details, see here.

Return to Previous Page