赵永礼

发布者:叶寅发布时间:2020-02-24浏览次数:4743

个人信息:

姓名:赵永礼              职称:讲师

专业:机械工程          学历层次:博士

办公室地点:交通楼8B507

电话:15026689055

电子邮箱:zyl@sues.edu.cn

研究方向:智能传感与智能控制、新材料

主讲课程:控制理论、智能系统与微纳技术等

  

个人简介:(教育背景、工作经历)

法国École Centrale de Lyon大学理学硕士,法国Université Bourgogne Franche-Comté大学工学博士。目前主要从事智能传感与智能控制、新材料等领域的研究。近年来主持上海市教委项目1项、主持企业研究课题3项,作为项目执行人开展国际合作项目2项,参与国家自然科学基金项目1项、以及多项横向科研项目等。在国内外学术期刊上发表论文40余篇,其中SCI论文20余篇。获得发明专利6项,获得软件著作权1项,出版著作1部。

主要科研成果:(代表性论文、专利、著作等)

[1] Y. Zhao, Z.Yang, J. Wen; M.P. Planche, F. Peyraut, J. Ilavsky, B. Lenoir, H. Liao, G. Montavon, A. Lasalle; A. Allimant, “Numerical reconstruction of porous architecture for suspension plasma sprayed coatings”, ASM International, ITSC 2021: P. 482-488.

[2] Y. Zhao, J. Wen; F. Peyraut, M.P. Planche, S. Misra, B. Lenoir, J. Ilavsky, H. Liao, G. Montavon, “Porous architecture and thermal properties of thermal barrier coatings deposited by suspension plasma spray”, Surface and Coatings Technology, 2020(386):125462.

[3] Y. Zhao, Y. Wang, F. Peyraut, M.P. Planche, J. Ilavsky, H. Liao, G. Montavon, A. Lasalle; A. Allimant, “Parametric Analysis and Modeling for the Porosity Prediction in Suspension Plasma-Sprayed Coatings”, Journal of thermal spray technology, 2020 (29): P.51-59.

[4] Y. Zhao, Y. Wang, F. Peyraut, H. Liao, G. Montavon, M.P. Planche, J. Ilavsky, A. Lasalle; A. Allimant, “Evaluation of nano/submicro pores in suspension plasma sprayed YSZ coatings”, Surface and Coatings Technology, 2019 (378):125001.

[5] Y. Zhao, Y. Wang, F. Peyraut, M.P. Planche, H. Liao, G. Montavon, J. Ilavsky, A. Lasalle, A. Allimant, “Multivariate Analysis and Evaluation of the Porous Architecture of Suspension Plasma Sprayed Coatings”, ASM International, ITSC 2019: P. 272-278.

[6] Y. Zhao, F. Peyraut, M.P. Planche, J. Ilavsky, H. Liao, A. Lasalle, A. Allimant, G. Montavon, “Experiments, statistical analysis and modeling to evaluate the porosity influence in SPS coatings”, Journal of thermal spray technology, 2019 (28): P.76–86.

[7] Y. Wang, Y. Zhao*, G. Darut, T. Poirier, J. Stella, K. Wang, H. Liao, M.P. Planche, “A novel structured suspension plasma sprayed YSZ-PTFE composite coating with tribological performance improvement”, Surface and Coatings Technology, 358 (2019), P. 108-113.

[8] Y. Zhao, Y. Wang, Z. Yu, M.P. Planche, F. Peyraut, H. Liao, A. Lasalle, A. Allimant, G. Montavon, “Microstructural, mechanical and tribological properties of suspension plasma sprayed YSZ/h-BN composite coating”, Journal of the European Ceramic Society, 2018 (38): P.4512–4522.

[9] Y. Zhao, Z.Yu, M.P. Planche, A. Lasalle, A. Allimant, G. Montavona, H. Liao, “Influence of Substrate Properties on the Formation of Suspension Plasma Sprayed Coatings”, Journal of thermal spray technology, 2018. 27(1): p. 73-83.

[10] Y. Zhao, F. Peyraut, M.P. Planche, G. Montavon, J. Ilavsky, A. Lasalle, A. Allimant, Multivariate Analysis of the Influence of Process Parameters on Suspension Plasma-Sprayed Coatings, ASM International, ITSC 2018: p. 475-482.

[11] Y. Zhao, C. Zhao, J. Huang, B. Zhao, LaMnO3–Ni0.75Mn2.25O4 Supported Bilayer NTC Thermistors, Journal of the American Ceramic Society, 97 (2014): p.1016–1019.

[12] Y. Zhao, C. Zhao, Y. Tong, Spinel-structured Ni-free Zn0.9CuxMn2.1-xO4 (0.1≤x≤0.5) thermistors of negative temperature coefficient, Journal of Electroceramics, 31 (2013), P. 286-290.

[13] Y. Zhao, Z.Yu, MP. Planche, G. Montavon, “Formation of Suspension Plasma Sprayed Coatings” DVS-German Welding Society ITSC 2017, p. 1137-1143.

[14] Y. Wang, B. Lebon, I. Tzanakis, Y. Zhao, K. Wang, J. Stella, T. Poirier, G. Darut, H. Liao, M-P. Planche, Experimental and numerical investigation of cavitation-induced erosion in thermal sprayed single splats, Ultrasonics Sonochemistry, 52 (2018), p.336-343.

[15] Z. Yu, Y. Ma, Y. Zhao, J. Huang, W. Wang, M. Moliere, and H. Liao, “Effect of precursor solutions on ZnO film via solution precursor plasma spray and corresponding gas sensing performances”, Applied Surface Science, vol. 412, (2017), p. 683 - 689.

[16] Z. Yu, Y. Zhao, M. Moliere, H. Liao, Z. Feng and W. Wang, “The effects of substrate preheating temperature and torch power on crystallization and microstructure of ZnO films via SPPS”, DVS-German Welding Society ITSC 2017, p. 273-279.

[17] B. Zhao, Y. Tong, Y. Zhao, T. Yang, C. Zhao, F. Yang, Q. Hu, “Preparation of ultra-fine Sm0.2Ce0.8O1.9 powder by a novel solid state reaction and fabrication of dense Sm0.2Ce0.8O1.9 electrolyte film”, Ceramics International, 41(2015), p.9686–9691.

[18] Y. Tong, B. Zhao, Y. Zhao, T. Yang, Y. Fang, Q. Hu, C. Zhao, “Novel Anode-Supported Tubular Solid-Oxide Electrolytic Cell for Direct NO Decomposition in N2 Environment”, Int. J. Electrochem. Sci., 10 (2015), p.5338 - 5349.

[19] C. Zhao, Y. Zhao, Y. Wang, “Annealing on the electrical properties of Ni0.75Mn2.25O4 and Zn0.8Ni0.75Mn1.45O4 NTC ceramics”, Solid State Communications, 152 (2012): p.593–595.

[20] C. Zhao, Y. Zhao, “The investigation of Zn content on the structure and electrical properties of ZnxCu0.2Ni0.66Mn2.14−xO4 negative temperature coefficient ceramics”, Journal of Materials Science: Materials in Electronics, 23 (2012): p.1788–1792.

著作

Y. Zhao, N. Chen, K. Xing, “The Application of Electronic Commerce”, Shanghai University of Finance & Economics Press, ISBN:978-7-5642-1528-6.

  

发明专利

[1] 温举洪,赵永礼,杨志蒙,银建新,彭志,“一种基于气体浓度梯度驱动的气体源定位装置”专利号:202110434444.6

[2] 赵永礼一种兼顾充电时间和电池寿命的电池充电器,专利号:ZL201110185824.7

[3] 赵永礼具有容量动态显示与充电倒计时的电池充电装置及其应用,专利号:ZL201110184996.2

[4] 赵永礼一种具有USB主从双模式功能的激光三维内雕机”, 专利号: ZL200910047708.1

[5] 赵永礼,杨寅华, “NTC热敏电阻材料及制备方法和在电子器件中的应用”, 专利号:CN103183508A

[6] 赵永礼,束建红,赵双喜,中高温NTC热敏电阻材料及制备方法和应用,专利号:CN103387381A

软件著作权

赵永礼,杨寅华,激光三维加工图像处理与系统控制软件,软件著作权号: 2010SR044932

  


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