左飞 - 广东工业大学 - 机电工程学院

个人简介

左飞，“青年百人计划”A类特聘副教授；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。【工作经历】 l2016.05 至今广东工业大学机电工程学院特聘副教授，“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） l2015.03 - 2016.02 美国宾夕法尼亚州立大学材料研究所博士后研究员（美方全额资助）合作导师D. AGRAWAL教授 l2014.10 - 2015.01 法国国家科研中心高温与辐射极端条件实验室博士后研究员（法方全额资助）合作导师J. POIRIER教授 l2011.10 - 2014.09 法国国家科研中心Georges Friedel实验室 EPA研究员（法方全额资助）导师D. GOEURIOT教授 l2011.02 - 2011.07 欧洲陶瓷中心陶瓷工艺与表面处理科学实验室研究助理导师D. CHULIA教授【在研项目】（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-自由申请项目，10万元，主持。（3）广东省自然科学基金-博士科研启动项目，10万元，主持。（4）青年教师培育计划项目，10万元，主持。（5）“青年百人计划”科研启动项目，10万元，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。【会议邀请报告】（1）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年9月12-14日（Invited Keynote）（2）Fei Zuo, Design Silicon Nitride Ceramics for Energy Technology Applications, 7th International Congress on Ceramics,巴西，2018年6月17-21日（Invited Keynote）（3）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年10月11-13日（Invited Keynote）（4）Fei 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年8月24-28日（Invited Keynote）（5）Fei Zuo, Effect of the powder natures on densification thermodynamics and kinetics of α-alumina under microwave, Journees Annuelles GFC 2014,法国，2014年3月18-20日（Invited Keynote）

研究领域

主要研究方向为绿色高效外场辅助烧结技术，陶瓷材料3D/4D打印与结构功能一体化设计，先进陶瓷激光加工与功能化，生物结构陶瓷等。

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

（1）F. Heet al., Study on MgxSr3-x(PO4)2 bioceramics as potential bone grafts.Colloids and Surfaces B: Biointerfaces, 2019, 175: 158-165. （2）F. Heet al., Fabrication of β-tricalcium phosphate composite ceramic scaffolds based on spheres prepared by extrusion-spheronization.Journal of the American Ceramic Society, 2018, 101:5811-5826. （3）F. Heet al., Tailoring the mechanical property and cell-biological response of β-tricalcium phosphate composite bioceramics by SrO-P2O5-Na2O based additive.Journal of the Mechanical Behavior of Biomedical Materials, 2018, 86: 215-223. （4）Q. Chenet al., Characterization of hole taper in laser drilling of silicon nitride ceramic under water.Ceramics International, 2018, 44: 13449-13452. （5）F. Zuoet al., Effect of current pattern and conductive phase on sintering behavior of Si3N4-based ceramic composite.Ceramics International, 2018, 44: 9561-9567. （6）Y. Tianet al., β-tricalcium phosphate composite ceramics with high compressive strength, enhanced osteogenesis and inhibited osteoclastic activities.Colloids and Surfaces B: Biointerfaces, 2018, 167: 318-327. （7）H. Wang et al., Effect of scanning pitch on micro-drilling of silicon nitride ceramic by nanosecond pulsed laser.Ceramics International, 2018, 44: 14925-14928. （8）X. Chenet al., Fabrication of a metal micro mold by using pulse micro electroforming.Micromachines, 2018, 9: 203. （9）F. Zuoet 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. （10）B. Xiaoet al., A study of oxidation behavior of AlTiN-and AlCrN-based multilayer coatings.Surface & Coatings Technology, 2018, 333: 229-237. （11）X. Xiet al., Oxidation protection of SiC in porcelain tile ceramics by adding Si powder.Journal of the European Ceramic Society, 2017, 37: 2753-2756. （12）C. 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. （13）N. Peillon et al., In-situ studies on preparation of ZnAl2O4 spinel using microwave reactive sintering technique.Materials Letters, 2016, 167: 77-80. （14）F. Zuoet 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. （15）F. 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. （16）F. Zuo et al., Non-thermal effect on densification kinetics during microwave sintering of α-alumina.Scripta Materialia, 2013, 69: 331-333. （17）F. 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.