@article{CTT100877535,
  author = {Hiroaki Ashizawa and Katsumi Yoshida},
  title = {Plasma Corrosion Behavior of Y2O3 Ceramics with Various Grain Sizes and Porocities},
  journal = {Bulletin of the Laboratory for Advanced Nuclear Energy, Tokyo Institute of Technology},
  year = 2022,
}

@article{CTT100877577,
  author = {Hiroaki Ashizawa and Katsumi Yoshida},
  title = {Plasma-resistace evaluation of yttrium oxyfluoride coating prepared by aerosol deposition method},
  journal = {International Journal of Applied Ceramic Technology},
  year = 2022,
}

@article{CTT100855494,
  author = {Hiroaki Ashizawa and Katsumi Yoshida},
  title = {Investigation of fluoride layer of yttria coatings prepared by aerosol deposition method},
  journal = {Journal of the Ceramic Society of Japan},
  year = 2021,
}

@article{CTT100855492,
  author = {Hiroaki Ashizawa and Masakatsu Kiyohara and Katsumi Yoshida},
  title = {Microstructure and Plasma Corrosion Behavior of Yttria Coatings Prepared by the Aerosol Deposition Method},
  journal = {Journal of the American Ceramic Society},
  year = 2020,
}

@article{CTT100813776,
  author = {Hiroaki Ashizawa and Katsumi Yoshida},
  title = {Effect of the microstructure of yttria ceramics on their plasma corrosion behavior},
  journal = {Ceramics International},
  year = 2019,
}

@inproceedings{CTT100900017,
  author = {芦澤宏明 and 吉田克己},
  title = {AD法で作製したオキシフッ化イットリウムコーティングの耐プラズマ性評価},
  booktitle = {},
  year = 2022,
}

@inproceedings{CTT100877491,
  author = {滝沢亮人 and 芦澤宏明 and 清原正勝 and 吉田克己},
  title = {AD 法を用いて作製した酸化ジルコニウムの材料特性と耐摩耗性の評価},
  booktitle = {},
  year = 2021,
}

@inproceedings{CTT100877485,
  author = {芦澤宏明 and 吉田克己},
  title = {AD法で作製したイットリア膜のフッ素プラズマ環境下でのフッ化挙動},
  booktitle = {},
  year = 2021,
}

@inproceedings{CTT100839447,
  author = {Hiroaki Ashizawa and Katsumi Yoshida},
  title = {Effect of the microstructures of Yttria Coatings on their Fluorination Behavior in Fluorine-based Plasma},
  booktitle = {},
  year = 2019,
}

@inproceedings{CTT100839446,
  author = {Hiroaki Ashizawa and Masakatsu Kiyohara and Katsumi Yoshida},
  title = {Plasma Corrosion Behavior of Yttrium Oxide Coating prepared by Aerosol Deposition Method},
  booktitle = {},
  year = 2019,
}

@inproceedings{CTT100814227,
  author = {芦澤宏明 and 清原 正勝 and 吉田克己},
  title = {イットリアコーティングの微細組織とプラズマ腐食挙動},
  booktitle = {},
  year = 2019,
}

@inproceedings{CTT100814190,
  author = {芦澤宏明 and 吉田 克己},
  title = {プラズマ環境におけるイットリア焼成体の腐食挙動},
  booktitle = {},
  year = 2018,
}

@misc{CTT100830571,
  author = {芦澤宏明},
  title = {イットリウム系セラミックスコーティングの微細組織構造が耐プラズマ性に及ぼす影響},
  year = 2020,
}

@misc{CTT100830570,
  author = {芦澤宏明},
  title = {イットリウム系セラミックスコーティングの微細組織構造が耐プラズマ性に及ぼす影響},
  year = 2020,
}

@misc{CTT100874110,
  author = {芦澤宏明},
  title = {イットリウム系セラミックスコーティングの微細組織構造が耐プラズマ性に及ぼす影響},
  year = 2020,
}

@misc{CTT100830572,
  author = {芦澤宏明},
  title = {イットリウム系セラミックスコーティングの微細組織構造が耐プラズマ性に及ぼす影響},
  year = 2020,
}



@phdthesis{CTT100830571,
  author = {芦澤宏明},
  title = {イットリウム系セラミックスコーティングの微細組織構造が耐プラズマ性に及ぼす影響},
  school = {東京工業大学},
  year = 2020,
}

@phdthesis{CTT100830570,
  author = {芦澤宏明},
  title = {イットリウム系セラミックスコーティングの微細組織構造が耐プラズマ性に及ぼす影響},
  school = {東京工業大学},
  year = 2020,
}

@phdthesis{CTT100874110,
  author = {芦澤宏明},
  title = {イットリウム系セラミックスコーティングの微細組織構造が耐プラズマ性に及ぼす影響},
  school = {東京工業大学},
  year = 2020,
}

@phdthesis{CTT100830572,
  author = {芦澤宏明},
  title = {イットリウム系セラミックスコーティングの微細組織構造が耐プラズマ性に及ぼす影響},
  school = {東京工業大学},
  year = 2020,
}