"Bohan Wang,Haomeng Shi,Tomotaka Miyazawa,Masahiro Ohtsuka,Shunsuke Muto,Shigeo Arai,Toshiyuki Fujii","Cell structure development during cyclic deformation of near-[001] and near-[011] copper single crystals",,"Materials Science and engineering A","ELSEVIER","vol. 916",,"  147357",2024,Oct.
"宮澤 知孝,WANG Bohan,藤居 俊之,武藤俊介","[001]銅単結晶の低サイクル疲労によって形成されるcell組織の超高圧電子顕微鏡観察",,"名古屋大学電子光学研究のあゆみ","名古屋大学 未来材料・システム研究所 超高圧電子顕微鏡施設",,"No. 35","p. 102-103",2024,June
"Bohan Wang,Tomotaka Miyazawa,TOSHIYUKI FUJII","Dislocation structures of fatigued near-[001] copper single crystals under high strain amplitude","日本金属学会2024年春期(第174回)講演大会",,,,,,2024,Mar.
"Tomotaka Miyazawa,Bohan Wang,Yuki Umeda,Masahiro Ohtsuka,Shunsuke Muto,Shigeo Arai,Toshiyuki Fujii","Burgers vector analysis of dislocation network of cell boundary developed in [-111] copper single crystals during cyclic deformation with virtual scanning transmission electron microscopy","International Conference on Materials and Systems for Sustainability 2023(ICMaSS2023)",,,,,,2023,Nov.
"Bohan Wang,Yuki Umeda,Tomotaka Miyazawa,Masahiro Ohtsuka,Shunsuke Muto,Shigeo Arai,Toshiyuki Fujii","Dislocation networks in the (111) cell boundaries in fatigued near-[-111] copper single crystals","13th International Fatigue congress Fatigue 2022+1",,,,,,2023,Nov.
"宮澤 知孝,Wang Bohan,藤居俊之,荒井重勇","[-1 1 1] 銅単結晶の繰り返し変形によって形成された転位組織の超高圧電子顕微鏡による観察",,"文部科学省マテリアル先端リサーチインフラ利用報告書","文部科学省マテリアル先端リサーチインフラ",,,,2023,Aug.
"宮澤知孝,Wang Bohan,梅田侑暉,藤居俊之,大塚真弘,荒井重勇,武藤俊介","繰り返し変形した[-111]銅単結晶のセル境界を構成する転位ネットワークの超高圧電子顕微鏡観察","2023年 夏の電子顕微鏡解析技術フォーラム",,,,,,2023,Aug.
"Bohan Wang,Yuuki Umeda,Tomotaka Miyazawa,Masahiro Ohtsuka,Shunsuke Muto,Shigeo Arai,Toshiyuki Fujii","Formation mechanism of dislocation network of cell structure in cyclically deformed near-[-111] copper single crystals",,"Materials Science and Engineering: A","Elsevier","Vol. 879",,"  145287",2023,July
"Bohan Wang,Takumi Kimura,Tomotaka Miyazawa,Shigeo Arai,Toshiyuki Fujii","Characterization of dislocation microstructures in near-[-111] single crystalcopper using high-voltage scanning transmission electron microscopy",,"Materials Science & Engineering A","Elsevier","Vol. 862",,"pp. 144482",2022,Dec.
"Bohan Wang","Formation mechanism of dislocation cell structures during fatigue in multiple-slip-oriented copper single crystals",,,,,,,,
"Bohan Wang","Formation mechanism of dislocation cell structures during fatigue in multiple-slip-oriented copper single crystals",,,,,,,,