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个人简介 个人简介：工学博士，助理研究员。主要从事热喷涂技术及金属增材制造相关领域的研究。2022年6月毕业于法国勃艮第-弗朗什孔泰大学国家科学研究中心实验室ICB-PMDM-LERMPS，获博士学位；2023年12月于法国里尔大学和国家科学研究中心实验室ICB-PMDM-LERMPS完成博士后阶段工作。发表学术论文20余篇，其中第一/通讯作者身份7篇；获得计算机软件著作权一项。作为骨干成员参与法国国家基金一项，国家自然科学基金面上项目一项和上海市科学技术委员会课题项目一项。 研究方向：（1）   热喷涂技术及应用（2）   激光增材制造技术及应用（3）   激光表面强化技术及应用 教学与课程 育人成果 科研项目 科研成果 论文发表：[1] S. Liu, et al. Effect of stoichiometry conditions on the erosion and sliding wear behaviors of Cr3C2-NiCr coatings deposited by a novel ethanol-fueled HVOF process. Surface and Coatings Technology, (2023) 454, 129084.(1区Top IF=5.4)[2] S. Liu, et al.Tribological properties of cold-sprayed 7075Al coatings reinforced with hybrid nano-TiB2/micro-SiC particles,Surface and Coatings Technology.(2023) 458, 129323. (1区Top IF=5.4)[3] S. Liu, et al. Novel liquid fuel HVOF torches fueled with ethanol: relationships between in-flight particle characteristics and properties of WC-10Co-4Cr coatings. Surface and Coatings Technology, (2021)408, 126805.(1区Top IF=5.4)[4] H. Wu,X. Xie, S. Liu（*通讯作者）, et al. Bonding behavior of Bi-metal-deposits produced by hybrid cold spray additive manufacturing. Journal of Materials Processing Technology, (2021) 117375. (2区Top IF=6.3)[5] S. Xie, C. Song, S. Liu（*通讯作者）, et al.Dense nanostructured YSZ coating prepared by low-pressure suspension plasma spraying: Atmosphere control and deposition mechanism. Surface and Coatings Technology, (2021) 416, 127175.(1区Top IF=5.4)[6] S. Liu, et al. Novel Liquid Fuel HVOF Torches Fueled with Ethanol: Optimization and Erosion Wear Response of Cr3C2-NiCr Coatings. In ITSC2021 (pp. 79-86). ASM International.[7] S. Liu, W. Wang, et al. Failure Analysis of the Tubes in a Methanol Synthesis Tower. Journal of Failure Analysis and Prevention, (2019), 19(2), 438-444.[8] S. Liu, et al. Effect of Compressed Air Flow Rate on the Microstructure and Properties of NiCoCrAlYTa Coatings Via a Novel HVOAF Process Fueled with Ethanol, Thermal Spray 2022: Proceedings from the International Thermal Spray Conference, 2022, pp. 437-446.[9] H. Wu,S. Liu, et al. Generic implementation of path design for spray deposition: Programming schemes, processing and characterization for cold spraying,Surface and Coatings Technology, (2023) 458, 129368.(1区Top IF=5.4)[10] T. Jiang, T. Liu, S. Liu, et al. Dynamic self-optimization of hierarchical NiAl architecture catalysing oxygen evolution reaction in alkaline water electrolysis. Applied Materials Today, (2022), 28, 101526. (2区IF=8.3)[11] H. Wu,S. Liu, et al. A framework for a knowledge based cold spray repairing system,Journal of Intelligent Manufacturing, (2021) 1-9. (1区Top IF=8.3)[12] S. Xie, C. Song, Z. Yu, S. Liu, et al. Effect of environmental pressure on the microstructure of YSZ thermal barrier coating via suspension plasma spraying. Journal of the European Ceramic Society, (2021) 41(1), 535-543. (1区Top IF=5.7)[13]H. Wu,S. Liu, et al. New Process Implementation to Enhance Cold Spray based Additive Manufacturing, Journal of Thermal Spray Technology,(2021) 1-10. (2区IF=3.1)[14] H. Wu, C. Huang, X. Xie, S. Liu, et al. Influence of spray trajectories on characteristics of cold-sprayed copper deposits[J]. Surface and Coatings Technology, (2021)405, 126703. (1区Top IF=5.4)[15] Y. Yao, S. Liu, et al. Application of Image Segmentation to Identify In-flight Particles in Thermal Spraying, Journal of Thermal Spray Technology,(2022) 1-13. (2区IF=3.1)[16] L. Gui, ... S. Liu, A. Killinger. Prediction of In-Flight Particle Properties and Mechanical Performances of HVOF-Sprayed NiCr–Cr3C2 Coatings Based on a Hierarchical Neural Network. Materials,(2023) 16(18), 6279.(3区IF=3.4) 社会服务