陈睿翀 副研究员
个人简介
陈睿翀,男,理学博士,副研究员/硕导。
2024.1-至 今,成都大学太阳成集团tyc234cc,材料工程系,副研究员;
2021.9-2024.1,成都大学太阳成集团tyc234cc,材料工程系,助理研究员;
2017.9-2021.6,四川大学与日本九州大学,凝聚态物理专业博士学位,联合培养 ;
2014.9-2017.6,四川大学,凝聚态物理专业硕士学位;
2010.9-2014.6,成都理工大学,核工程与核技术专业学士学位;
联系方式
邮箱:chenruichong@cdu.edu.cn
联系地址:四川省成都市外东十陵成都大学太阳成集团tyc234cc
邮编:610106
研究方向
1.磁约束核聚变领域固态氚增殖剂的结构设计与氚行为研究
2.激光惯性约束核聚变领域B4C点火空心靶丸的可控制备
学术任职
中国硅酸盐协会特陶青工委委员
科研成功
1.科研项目
主持:四川省自然科学基金(青年项目),高温H2气氛下新型Li4SiO4-Li2TiO3核壳结构氚增殖剂传质机理研究,时间2023.1-2024.12;
主持:成都大学成都大学引进人才科研启动项目,先进核壳结构氚增殖材料的制备与质量转移行为研究,时间2021.9-2024.9;
主持:企业横向合作项目,碳化硼陶瓷基复合材料制备工艺研究,时间:2022.12-2025.12
主持:企业横向合作项目,碳化硼超硬涂层材料研发,时间:2024.1-2026.12
2.学术论文
[1] R. Chen, K. Katayama, A. Ipponsugi, R. Oyama, H. Guo, J. Qi, Z. Liao, T. Lu, The effect of long-term heating on the tritium adsorption and desorption behavior of advanced core–shell breeding materials, Nuclear Fusion 62 (2022) 076030.
[2] R. Chen, Z. Liao, Y. Shi, H. Wang, H. Guo, Y. Zeng, J. Qi, Q. Shi, T. Lu, Preparation of Li4TiO4-Li2TiO3 core-shell ceramic pebbles with thick shells and high strength through an improved granulation method, Journal of Nuclear Materials 543 (2021) 152580.
[3] R. Chen, M. Yang, Y. Shi, H. Wang, H. Guo, Y. Zeng, J. Qi, Q. Shi, Z. Liao, T. Lu, Development of an advanced core-shell ceramic pebble with Li4TiO4 pure phase core and Li2TiO3 nanostructured shell by a physical coating method, Journal of Nuclear Materials 520 (2019) 252–257.
[4] R. Chen, Q. Shi, M. Yang, Y. Shi, H. Wang, C. Dang, J. Qi, Z. Liao, T. Lu, Microstructure and phase evolution of Li4TiO4 ceramics pebbles prepared from a nanostructured precursor powder synthesized by hydrothermal method, Journal of Nuclear Materials 508 (2018) 434–439.
[5] R. Chen, J. Qi, Q. Shi, Y. Shi, H. Wang, H. Guo, Y. Zeng, M. Yang, Z. Liao, T. Lu, Highly efficient preparation of Li2O breeder materials with core‐shell structure by oil‐based granulation route, J Am Ceram Soc 103 (2020) 5612–5623.
[6] R. Chen, M. Yang, Y. Shi, H. Wang, H. Guo, Y. Zeng, J. Qi, Q. Shi, Z. Liao, T. Lu, Low-temperature fabrication of Li2O porous ceramic pebbles by two-stage support decomposition, International Journal of Hydrogen Energy 44 (2019) 20249–20256.
[7] R. Chen, H. Guo, Y. Shi, M. Zhou, W. Feng, T. Lu, Fabrication of high strength Li-rich 2Li2TiO3–Li4SiO4 composite breeding ceramics at low-temperature by two-step sintering, Ceramics International 48 (2022) 29944–29950.
[8] R. Chen, H. Guo, Z. Huang, H. Wang, J. Qi, M. Zhou, W. Feng, T. Lu, Influence of sintering atmosphere on phase, microstructure and mechanical properties of Li4Si0.7Ti0.3O4 tritium breeding ceramics, Ceramics International 49 (2023) 7623–7629.
[9] R. Chen, K. Katayama, A. Ipponsugi, H. Guo, T. Lu, W. Feng, Effects of water adsorption on tritium release behavior of Li4TiO4 and Li4TiO4-Li2TiO3 core-shell structure breeding ceramics, Fusion Engineering and Design 187 (2023) 113374.
[10] R. Chen, A. Ipponsugi, R. Oyama, J. Qi, H. Wang, Z. Huang, H. Guo, T. Lu, W. Feng, K. Katayama, Long‐term thermal stability of Li4TiO4–Li2TiO3 core–shell breeding pebbles under continuous heating in H 2 /Ar atmosphere, Int J Applied Ceramic Tech 20 (2023) 2576–2585.
[11] R. Chen, Q. Shi, L. Su, M. Yang, Z. Huang, Y. Shi, Q. Zhang, Z. Liao, T. Lu, Preparation of a B4C hollow microsphere through gel-casting for an inertial confinement fusion (ICF) target, Ceramics International 43 (2017) 571–577.
[12] R. Chen, J. Qi, L. Su, Q. Shi, X. Guo, D. Wu, T. Lu, Z. Liao, Rapid preparation and uniformity control of B4C ceramic double-curvature shells: Aim to advance its applications as ICF capsules, Journal of Alloys and Compounds 762 (2018) 67–72.
[13] R. Chen, J. Qi, X. Guo, D. Ye, X. Wang, Q. Shi, D. Wu, Z. Liao, T. Lu, Surface morphology and microstructure evolution of B4C ceramic hollow microspheres prepared by wet coating method on a pyrolysis substrate, Ceramics International 45 (2019) 7916–7922.
[14] R. Chen, L. Su, J. Qi, Q. Shi, Y. Shi, Z. Liao, T. Lu, Effect of deposition time on the growth mode and stoichiometric of amorphous boron carbide thin films deposited by electron beam evaporation, Ceramics International 44 (2018) 17298–17304.
