左飞,广东省“珠江人才计划”引进创新团队核心成员,“青年百人计划”A类,副教授,硕士研究生导师;法国国家科研中心CNRS博士,师从法国陶瓷学会秘书长D. GOEURIOT教授,享受法国政府全额奖学金资助。主要研究方向:绿色高效多能场辅助烧结技术,陶瓷材料3D/4D打印,高性能材料结构功能一体化设计与先进制造等。
【工作经历】
2016.04 至今 广东工业大学350VIP浦京集团・(中国)有限公司 副教授,“珠江人才计划”广东省高技术陶瓷先进制造技术创新团队核心成员(林华泰教授团队)
2015.03 - 2016.02 美国宾夕法尼亚州立大学材料研究所(Penn State-MRI) 博士后研究员(美方全额资助)
2014.10 - 2015.01 法国国家科研中心高温与辐射极端条件实验室(CNRS-CEMHTI) 博士后研究员(法方全额资助)
2011.10 - 2014.09 法国国家科研中心Georges Friedel实验室(CNRS-LGF) EPA研究员(法方全额资助)
2011.02 - 2011.07 欧洲陶瓷中心陶瓷工艺与表面处理科学实验室(CEC-SPCTS/IRCER) 研究助理
【科研项目】
(1)国家自然科学基金-青年基金项目,25万元,主持。
(2)广东省自然科学基金-面上项目,10万元,主持。
(3)广东省自然科学基金-自由申请(面上)项目,10万元,主持。
(4)广东省自然科学基金-博士科研启动项目,10万元,主持。
(5)广州市科技计划项目,20万元,主持。
(6)“珠江人才计划”广东省引进创新科研团队项目,1000万元,核心成员。
【学术会议】
(1)F. Zuo, Symposium 08: Sintering and Related Phenomena and Processing of Materials using SPS, 8th International Congress on Ceramics, 韩国,2021(共同组织人 & 特邀报告).
(2)F. Zuo, Combined Effect of Conductive Phase and Current Pattern on Spark Plasma Sintering of Si3N4-Based Ceramic Composite, XVI International Conference of the European Ceramic Society, 意大利, 2019.
(3)左飞,导电相与电流波形对Si3N4复相陶瓷PECS烧结过程的作用机理研究,中国硅酸盐学会第20届全国高技术陶瓷学术年会,中国,2018(特邀报告).
(4)F. Zuo, Design Silicon Nitride Ceramics for Energy Technology Applications, 7th International Congress on Ceramics, 巴西,2018(特邀报告).
(5)左飞,电磁场作用下氧化铝烧结行为的热力学与动力学研究,中国硅酸盐学会第19届全国高技术陶瓷学术年会,中国,2016(特邀报告).
(6)F. Zuo, Influence of powder parameters on grain growth, thermodynamic and densification kinetics during the microwave sintering of α-alumina, International Conference on Sintering 2014, 德国,2014(特邀报告).
(7)F. Zuo, Effect of the powder natures on densification thermodynamics and kinetics of α-alumina under microwave, Journees Annuelles GFC 2014, 法国,2014(特邀报告).
(8)F. Zuo, Microwave effect on densification kinetics during the sintering of alumina, Materials Science & Technology 2013 International Conference and Exhibition, 加拿大, 2013.
(9)F. Zuo, Influence of powder natures on microwave effect in the sintering of alumina, 13th International Conference of the European Ceramic Society, 法国, 2013.
(10)F. Zuo, Comparison of microwave sintering and conventional sintering of α-alumina: effect of powder natures. Poudres & Materiaux Frittes 2013, 法国, 2013.
【主要学术论文】
(1) Luo et al., Ultrafast high-temperature sintering of silicon nitride: A comparison with the state-of-the-art techniques. Journal of the European Ceramic Society, 2021, 41: 6338-6345.
(2) Yuan et al., Comparison of sintering behavior and reinforcing mechanisms between 3Y-TZP/Al2O3(w) and 12Ce-TZP/Al2O3(w) composites: Combined effects of lanthanide stabilizer and Al2O3 whisker length. Journal of the European Ceramic Society, 2021, 41: 706-718.
(3) Lin et al., Densification and Phase Transformation in Multi-layered Graded Si3N4-TiN Components Produced by Field-assisted Sintering. Materials, 2019, 12, 2900.
(4) Zuo et al., Effect of current pattern and conductive phase on sintering behavior of Si3N4-based ceramic composite. Ceramics International, 2018, 44: 9561-9567.
(5) Wang et al., Effect of scanning pitch on micro-drilling of silicon nitride ceramic by nanosecond pulsed laser. Ceramics International, 2018, 44: 14925-14928.
(6) Zuo et al., Influence of whisker-aspect-ratio on densification, microstructure and mechanical properties of Al2O3 whiskers-reinforced CeO2-stabilized ZrO2 composites. Journal of the European Ceramic Society, 2018, 38: 1796-1801.
(7) Meunier et al., In situ study on microwave sintering of ZTA ceramic: Effect of ZrO2 content on densification, hardness, and toughness. Journal of the American Ceramic Society, 2017, 100, 929-936.
(8) Peillon et al., In-situ studies on preparation of ZnAl2O4 spinel using microwave reactive sintering technique. Materials Letters, 2016, 167: 77-80.
(9) Zuo et al., Investigation of the mechanism(s) controlling microwave sintering of α-alumina: Influence of the powder natures on the grain growth, thermodynamics and densification kinetics. Journal of the European Ceramic Society, 2015, 35: 959-970.
(10) Zuo et al., Microwave versus conventional sintering: estimate of the apparent activation energy for densification of α-alumina and zinc oxide. Journal of the European Ceramic Society, 2014, 34: 3103-3110.
(11) Zuo et al., Comparison of the microwave and conventional sintering of alumina: effect of MgO doping and particle size. Journal of the American Ceramic Society, 2013, 96: 1732-1737.
(12) Zuo et al., Non-thermal effect on densification kinetics during microwave sintering of α-alumina. Scripta Materialia, 2013, 69: 331-333.
【授权发明专利】
(1) 一种精确调控氧化铝晶须长径比的分散方法. ZL201710418169.2.
(2) 一种高长径比氧化铝晶须强韧化Ce-TZP复相陶瓷的制备方法. ZL201710471191.3.
(3) 一种二氧化锆增韧板片状氧化铝基复合陶瓷及其制备方法. ZL201810726467.2.
(4) 一种具有可表面改性的微纳结构的氮化硅陶瓷及其加工方法. ZL201910044865.0.
(5) 一种调控激光加工氮化硅基复合材料表面形貌的方法. ZL201910543891.8.
(6) 一种氮化硅泥料及其制备方法和氮化硅陶瓷件. ZL201910741219.X.
【联系方式】
Office:广州大学城广东工业大学实验三号楼213室
E-Mail:zuofei@gdut.edu.cn