胡焰
发布时间:2026-01-14   浏览次数:531

胡焰   博士研究生   副教授   硕士生导师

  • 联系方式:yanhu_nuaa@163.com

  • 研究方向:(1) 表面微纳制造; (2) 仿生功能表/界面设计与流体调控; (3) 摩擦学与表面工程

  • 教育背景:

  • 胡焰,工学博士,硕士生导师。202210博士毕业于南京航空航天大学机械设计及理论专业。目前主持国家自然科学基金青年项目、安徽省重点研究与开发计划项目、安徽省高校自然科学科研项目(重点)、江苏省研究生科研与实践创新计划项目等国家及省部级项目,主持企业**产学研课题经鉴定国际先进水平曾获国家留学基金委(CSC)资助、航空工业奖学金二等奖(排名1)。以第一作者在JMPT2篇)JMP3篇)WEAR1篇)摩擦、制造领域国际权威期刊发表SCI/EI学术论文20余篇,授权发明专利3项。

  • 工作经历:

    2022.12-2025.12 伟德国际victor1946 讲师

  • 2026.01-至今 伟德国际victor1946 副教授

  • 教学与课程:

  • 《互换性与技术测量》、《机械有限元法》、《工程流体力学》等。

  • 科研成果:

  • [1] 国家自然科学基金青年项目 (524054**)2025/01-2027/12,主持,在研。

  • [2] 安徽省重点研究与开发计划项目 (2023t070200**)2023/07-2026/07,主持,在研。

  • [3] 安徽省高校自然伟德国际重点项目 (2023AH0509**), 2023/09-2025/09,主持,结题。

  • ResearchGatehttps://www.researchgate.net/profile/Yan-Hu-55?ev=hdr_xprf

  • [1] Yan Hu, et al. A novel self-generating abrasive jet machining process. Journal of Manufacturing Processes, 2025, 152: 1084-1089. SCI, 中科院1TOP期刊

  • [2] Yan Hu, et al. Experimental and numerical investigation on the performances of multiphase jet nozzles equipped with different motive tubes. Powder Technology, 2025, 457: 120932.SCI, 中科院2区)

  • [3] Yan Hu, et al. Optimization of geometry parameters for a high-performance supersonic abrasive jet nozzle: An experimental and numerical study. Vacuum, 2026, 243: 114831.

  • [4] Yan Hu. Characteristics of abrasive jet erosion manufacturing technology: a comparative review.The International Journal of Advanced Manufacturing Technology, 2025, 138: 3827-3877.

  • [5] Yan Hu, et al. Towards understanding the influence of process parameters during the abrasive jet machining of cemented carbides via response surface method. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2024, 46(695): 1-19.

  • [6] Yan Hu*(通讯). The effect of microtextured internal wall on the fluid dynamics of abrasive slurry in a bionic nozzle. Surface Technology (表面技术). 2025.

  • [7] Yan Hu. Feasibility of using wet abrasive jet machining to produce flat and crack-free micro-textures on reaction bonded silicon carbide. Journal of Materials Processing Tech, 2022, 300: 117423.SCI, 中科院1TOP期刊

  • [8] Yan Hu, et al. Improvement of process repeatability and resolution in abrasive air jet machining via viscous slurry entrainment. Journal of Manufacturing Processes, 2022, 79: 413-431.SCI, 中科院1TOP期刊

  • [9] Yan Hu, et al. Characteristics of multiphase jet machining: A comparison with the absence of water. Journal of Materials Processing Tech, 2021, 291: 117050.SCI, 中科院1TOP期刊

  • [10] Yan Hu, et al. Tapered mask and its effect on the fluid flow and machining efficiency of a multiphase jet. Journal of Manufacturing Processes, 2020, 50: 467-474.SCI, 中科院1TOP期刊)

  • [11] Yan Hu, et al.Solid particle erosion-wear behaviour of SiC particle-reinforced Si matrix composite and neat Si—A comparison. Wear, 2022, 496-497: 204286.SCI, 中科院2

  • [12] Yan Hu, et al. Accuracy of the pattern transfer from the metal mask to the workpiece surface during multiphase jet machining. The International Journal of Advanced Manufacturing Technology, 2020, 106: 1355-1364.

  • [13] Yan Hu, et al. Recent Advances and Status of Abrasive Jet Machining Technology. Surface Technology (表面技术). 2022.(长篇综述,EI

  • [14] **关键技术研发及产业化. 成果水平: 国际先进. 2024.

其他:

课题组拥有高性能工作站、表面研磨抛光、表面形貌测量与表征、摩擦学与力学性能测试等重要科研仪器设备,能够进行系统的前沿科学领域研究与探索。指导在读研究生6人,毕业1人。欢迎有想法、感兴趣的同学加盟课题组!(数据截止到20261月)