王宇舟 副教授
办公电话:13232282205
电子邮箱:wangyzh253@mail.sysu.edu.cn
研究领域:致力于先进核反应堆材料研究和激光检测技术开发。研究领域主要包括:
• 核燃料的辐照损伤:探索核燃料在高辐射环境下的结构和性能变化,致力于提高核燃料的安全性和寿命。
• 热物理性质测量方法:开发精确的测量技术,研究材料在极端环境下的热物理性质,以优化核反应堆的性能。
• 机器学习在核燃料表征方面的应用:应用先进的机器学习算法,提升核燃料材料特性的预测和分析效率,推动智能化核燃料研发。
• 超快激光与物质的相互作用:研究超快激光脉冲与材料的相互作用机制,发展新型激光检测和加工技术。
欢迎加入本研究团队,有机会接触最前沿的科学问题和技术手段,参与到解决能源和环境挑战的实际项目中,共同推进核反应堆材料领域的发展。
主要经历:
• 2022-至今, 副教授,中法核工程与技术学院,中山大学
• 2020-2022,博士后研究员,爱达荷国家实验室
• 2019-2020,博士后研究员, 俄亥俄州立大学
• 2015-2019,博士研究生,机械与航天工程系(核工程组),俄亥俄州立大学
• 2011-2015,本科生,核科学与技术学院,中国科学技术大学
荣誉获奖:
• 广东省普通高校青年创新项目 (2023)
• 中国核工业教育学会涉核课程思政案例优秀教学成果(2023)
• 第八届高校学生“核+X”创意大赛2023年广东省赛优秀指导老师
• The Ohio State University Nuclear Engineering Program Research Award (2019)
• American Nuclear Society Alpha Nu Sigma National Honor Society (2017)
• 中科院近代物理研究所奖学金 (2014)
主要兼职:
• SCI国际期刊审稿人(Nucl. Eng. Des., J. Appl. Phys., Rev. Sci. Instrum.等)
• 中国核学会、广东省材料研究学会、美国矿物金属材料学会TMS、美国核学会ANS会员
代表论著:
Y. Wang, D. Tsang, Q. Zhang, F. Zhu, L. Song, X. Ma,Insights into irradiation creep coefficient in nuclear graphite from machine learning, Nuclear Engineering and Technology, https://doi.org/10.1016/j.net.2025.103559 (2025)
J. Justice, A. Bauyrzhan, Y. Wang, et al., Electrical Conductivity of Multilayered Cu/Nb Composites Fabricated by Accumulative Roll Bonding, Journal of Applied Physics, 137, 045105 (2025)
Y. Wang, Y. Zhang, et al., Evaluation of the thermal conductivity of chromium coatings for accident tolerant fuels using thermoreflectance techniques, Journal of Nuclear Materials, 604, 155535 (2025)
王宇舟, 张强, 马显锋, 朱斐, 廖京京. 基于光热反射技术的耐事故核燃料导热性质研究, 核动力工程, 45(S1), 96-102 (2024)
Y. Wang, Y. Zhang, Q. Zhang, F. Zhu, V. Chauhan, M. Khafizov, X. Ma, Z. Chang, Experimental Techniques for Investigating Thermal Transport in Nuclear Materials, Journal of Nuclear Science and Technology, 1–21 (2024)
Z. Hua, P. Merighe, J. Rufner, A. Preston, R. Schley, Y. Wang, S. Doran, D. Hurley, Microstructure characterization of Electric Field Assisted Sintering (EFAS) sintered metallic and ceramic materials using local thermal diffusivity measurement, AIP Advances, 13, 095220 (2023)
A. Khanolkar, Y. Wang, C. Dennett, Z. Hua, J. Mann, M. Khafizov, D. H. Hurley, Temperature-dependent elastic constants of thorium dioxide probed using time-domain Brillouin scattering, Journal of Applied Physics, 133, 195101 (2023)
G. Liu, Y. Tang, K. Hattar, Y. Wang, W. Windes, A. Haque, J. Du, An investigation of fracture behaviors of NBG-18 nuclear graphite using in situ mechanical testing coupled with micro-CT, Journal of Materials Research, 38(7), 1984-1993 (2023)
Y. Wang, Z. Hua, R Schley, G. Beausoleil II, D Hurley, Thermal properties measurement of TRISO particle coatings from room temperature to 900℃ using laser-based thermoreflectance methods, Journal of Nuclear Materials, 153721 (2022)
Y. Wang, V. Chuahan, et al., A square pulse thermoreflectance technique for the measurement of thermal properties,International Journal of Thermophysics, 43(4), 1-24 (2021)
Y. Wang, D. Frazer et al., Acoustic mapping by picosecond ultrasonics for elastic property measurement: experimental demonstration on a TRISO fuel compact, Journal of Nuclear Materials,558,153391(2021)
Y. Wang, M. Khafizov, Shear wave generation by mode conversion in picosecond ultrasonics: Impact of grain orientation and material properties, Journal of the American Ceramic Society, 104, 2788-2798 (2021)
Y. Wang, G. Sha et al., Impact of neutron radiation on the performance of AlN/sapphire surface acoustic wave devices, Nuclear Instruments and Methods in Physics Research Section B, 481, 35-41 (2020)
Y. Wang, D. Hurley, Z. Hua et al., Imaging grain microstructure in a model ceramic energy material with optically generated coherent acoustic phonons, Nature Communications, 11(1) ,1-8 (2020)
Y. Wang, D. Hurley, M. Khafizov et al., Nondestructive characterization of polycrystalline 3D microstructure with time-domain Brillouin scattering, Scripta Materialia, 166, 34–38 (2019)
Y. Wang, D. Hurley, E. Luther et al., Characterization of ultralow thermal conductivity in anisotropic pyrolytic carbon coating for thermal management applications, Carbon, 129, 476-485 (2018)
M. Khafizov, M. Riyad, Y. Wang et al., Combining mesoscale thermal transport and x-ray diffraction measurements to characterize early-stage evolution of irradiation-induced defects in ceramics, Acta Materialia, 193, 61-70 (2020)
A. Koshkinbayeva, A. Abdullaev, Z. Nurekeyev, V. A. Skuratov, Y. Wang, et al., Thermal Transport and Optical Spectroscopy in 710-MeV Bi Ion Irradiated LiF Crystals, Nuclear Instruments and Methods in Physics Research Section B, 475, 14-19 (2020)
19. M. Khafizov, V. Chauhan, Y. Wang et al., Investigation of thermal transport in composites and ion beam irradiated materials for nuclear energy applications, Journal of Materials Research, 32(1), 204-216 (2017)
科研项目:
2025-2028,国际原子能机构协调研究计划(IAEA CRP)项目,主持人
2024-2026,国家自然科学基金青年科学基金,主持人
2024-2026,广东省自然科学基金面上项目,主持人
2024-2026,珠海市产学研合作及基础与应用基础研究项目,主持人
2023-2023,中央高校基本科研业务费项目,主持人
2020-2021,美国能源部,新型核材料发现与验证计划,主要完成人
2019-2020,美国能源部,氮化铝探测器在反应堆中的辐照损伤,主要完成人
中法核工程与技术学院
中法核工程与技术学院