(1) Bi, Hailin*; Hirooka, Yoshi; Deuterium Transport and Retention in Liquid Ga and Li Under Steady-State Plasma Bombardment, IEEE Transactions on Plasma Science, 2019, 47(6): 3009-3014. (2) Hirooka Yoshi*; Bi Hailin; A Review of Recent Studies on Particle Recycling From Liquid Metals With/Without Convection Under Plasma Bombardment, IEEE Transactions on Plasma Science, 2019, 47(1): 915-923. (3) Bi Hailin*; Hirooka Yoshi; Yagi Juro; Xu Yue; A study on hydrogen isotopes transport in a liquid metal GaInSn by plasma-driven permeation method, Nuclear Materials and Energy, 2017, 12: 329-333. (4) Bi, Hailin*; Hirooka, Yoshi; Yagi, Juro; A study on hydrogen transport in liquid metals under steady state plasma bombardment, Plasma and Fusion Research, 2016, 11(1): 2405026. (5) Bi, Hailin*; Hirooka, Yoshi; Deuterium transport in a Lorentz-force convected liquid metal GaInSn under steady state plasma bombardment, Fusion Engineering and Design, 2017, 125: 588-592. (6) Bi, Hailin*; Hirooka, Yoshi; Deuterium transport in a liquid metal GaInSn with natural convection under steady state plasma bombardment, Fusion Engineering and Design, 2017, 125: 222-226. (7) Hirooka, Yoshi*; Bi, Hailin; Shimada, Michiya; Ono, Masa; Hydrogen and helium recycling from a JxB-force convected liquid metal GaInSn under steady state plasma bombardment, Fusion Engineering and Design, 2017, 117: 140-144. (8) Hirooka, Yoshi*; Bi, Hailin; Shimada, Michiya; Ono, Masa; Steady state hydrogen, deuterium, helium and argon plasma interactions with a liquid metal: GaInSn convected by Lorentz force, Nuclear Materials and Energy, 2017, 12: 361-365. (9) Wang, Xudi; Chang, Renchao; Ding, Yunsheng; Zhou, Bin; Cao, Qing*; Bi, Hailin*; Characterization of the average pore diameter of nanoporous media by gas permeability measurement technique in transitional flow regime, Vacuum, 2021, 194: 110596. (10) Zhang, Jun*; Song, Chen-chen; Niu, Xiao-fei; Wang, Xian-jin; Bai, Feng; Bi, Hai-lin*; Investigation on the thermal performance of spiral wound heat exchanger for the superfluid helium cryogenic system, Cryogenics, 2021, 115: 103264. (11) Zhou, Wentian; Bi, Hailin; Yu, Zhenhua; Wang, Xudi; Cheng, Yongjun; Xi, Zhenhua; Wei, Wei; Fabrication of the nanofluidic channels type leak assembly based on the glass frit sealing method, Journal of Vacuum Science and Technology B: Nanotechnology and Microelectronics, 2019, 37(5): 050603. (12) 花雨; 毕海林; 孙伟; 孙立臣; 孟冬辉; 王旭迪; 空间站舱外泄漏羽流场数值模拟与解析解研究, 真空科学与技术学报, 2019, 39(12): 1067-1071. (13) 丁云升; 毕海林; 张俊; 曹青; 任国华; 孙立臣; 王旭迪*; 基于气体渗透特性的多孔材料尺寸表征方法, 真空科学与技术学报, 2021, 41(08): 751-755. (14) 张一聪; 毕海林*; 樊翔; 左桂忠; 陈肇玺; 王旭迪; 不同流态下真空管道流导值的数值模拟研究, 真空科学与技术学报, 2022,第4期. (15) 常仁超;毕海林;吴俊;王旭迪;彭小波;空心玻璃微珠内部残余气体分析,真空科学与技术学报,2022,42(01):31-36. (16) 夏宗禹;王旭迪*;毕海林;周斌;赖灿雄;微小封闭空间气体取样过程瞬态模拟,真空科学与技术学报,2021,41(11) : 1019-1024. |
