黄诺帝 - 上海交通大学 - 机械与动力工程学院

个人简介

教育背景 2010.09-2017.03 上海交通大学机械工程专业，博士 2015.08-2016.08 佐治亚理工学院机械工程系，联合培养博士 2006.09-2010.06 武汉大学机械设计制造及其自动化专业，学士工作经历 2020.06至今上海交通大学机械与动力工程学院，长聘教轨副教授 2019.01-2020.02 多特蒙德工业大学ISF研究所，洪堡学者/博士后 2017.04-2020.06 武汉大学动力与机械学院，博士后科研项目 2021.01-2024.12 国家自然科学基金面上项目“基于加工-测量-仿真一体化的薄壁件切削变形与颤振自适应闭环控制”，负责人 2021.01-2023.12 上海海外高层次人才引进计划，高端装备与科研仪器制造领域，负责人 2021.01-2022.12 上海交通大学机械系统与振动国家重点实验室自主课题“卫星主承力桁架结构切削颤振抑制技术”，负责人 2020.11-2022.10 上海市浦江人才计划D类，负责人 2020.10-2022.09 航空科学基金“基于五轴五联动超精密加工机床的CAM软件设计研究”，负责人 2020.02-2021.12 上海航天科技创新基金“基于高效三维几何原位测量的多轴数控加工过程优化”，负责人 2019.07-2020.04 博士后科学基金特别资助项目“基于三维原位测量的薄壁件切削变形识别、预测与补偿”，负责人 2019.01-2020.12 华中科技大学数字制造装备与技术国家重点实验室开放课题，负责人 2019.01-2020.12 中南大学高性能复杂制造国家重点实验室开放课题，负责人 2018.01-2020.12 自然科学基金青年科学基金“面向接触式原位测量的复杂曲面加工精度检测方法研究”，负责人 2018.01-2019.04 博士后科学基金面上项目“深腔结构件插铣加工机理及其工艺规划”，负责人教学工作 *设计与制造I：2022年春，2023年春 *智能制造装备与技术：2023年春软件版权登记及专利 *一种基于轮廓中轴线的型腔高效螺旋铣削刀具路径规划方法. 发明专利, 201810099154.9 *House of quality for federated manufacturing APPs. 美国专利, US20190243618A1 荣誉奖励 *2021.02 上海海外高层次人才引进计划 *2020.11 上海市浦江人才计划 *2018.07 德国洪堡基金会洪堡学者

研究领域

数字化智能化制造： 1. 数字化与激光测量 2. 智能制造系统 3. 加工-测量一体化制造

近期论文

查看导师新发文章（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] Zhao Z, Huang N*, Zhong L, Du Z, Ibaraki S, Zhu L. On-machine measurement of thermal influence of the long-span crossbeam of gantry machine tools using a 3D laser profiler[J]. Precision Engineering, 2023, 82: 52-61. [2] Yi B, Li R, Li W. Wang X, Wu S, Huang N*. Adaptive milling for contours on deformed surface based on on-machine measurement and optimized parallel projection. The International Journal of Advanced Manufacturing Technology[J], 2023: 1-10. [3] Hua L, Huang N*, Yi B, Zhao Y, Zhu L. Global toolpath smoothing for CNC machining based on B-spline approximation with tool tip position adjustment[J]. The International Journal of Advanced Manufacturing Technology, 2023: 1-15. [4] Yi B, Liang R, Wang X, Wu S, Huang N*. Free-form surface form error evaluation based on smaller-scale sampling points in touch-trigger probing[J]. Precision Engineering, 2022, 76: 255-260. [5] Yi B, Qiao F, Hua L, Wang X, Wu S, Huang N*. Touch trigger probe-based interference-free inspection path planning for free-form surfaces by optimizing the probe posture[J]. IEEE Transactions on Instrumentation and Measurement, 2022, 71: 1-8. [6] Huang N, Hua L, Huang X, Zhang Y, Zhu L*. Biermann D. B-spline based corner smoothing method to decrease the maximum curvature of the transition curve[J]. Journal of Manufacturing Science and Engineering, 2022, 144(5). [7] Huang N, Zhang Y, Zhu L*, Ibaraki S. Visually quantifiable test piece for five-axis machine tools thermal effects[J]. Journal of Manufacturing Science and Engineering, 2022, 144(5). [8] Yi B, Qiao F, Huang N*, Wang X, Wu S, Biermann D. Adaptive sampling point planning for free-form surface inspection under multi-geometric constraints[J]. Precision Engineering, 2021, 72: 95-101. [9] Huang X, Wu S, Liang L, Li X, Huang N*. Efficient trochoidal milling based on medial axis transformation and inscribed ellipse[J]. The International Journal of Advanced Manufacturing Technology, 2020, 111(3): 1069-1076. [10] Huang N*, Krebs E, Baumann J, Zhou Y, Wu S, Biermann D. Experimental investigation on influence of engagement angle and tool geometry on plunge milling[J]. The International Journal of Advanced Manufacturing Technology, 2020, 108(5-6): 1973-1981. [11] Huang N*, Krebs E, Baumann J, Wirtz A, Jaeger M E, Biermann D. A universal pocket plunge milling method to decrease the maximum engagement angle[J]. Journal of Manufacturing Science and Engineering, 2020, 142(8): 081005. [12] Huang N, Jin Y, Lu Y, Yi B, Li X, Wu S*. Spiral toolpath generation method for pocket machining[J]. Computers & Industrial Engineering, 2020, 139: 106142. [13] Huang N, Jin Y, Li X, Liang L, Wu S*. Identification of integrated geometric errors of rotary axis and setup position errors for 5-axis machine tools based on machining test[J]. The International Journal of Advanced Manufacturing Technology, 2019, 102(5-8): 1487-1496. [14] Huang N, Jin Y, Lu Y, Li X, Wu S*. Plunge milling with constant scallop height by adaptively modifying the step interval for pocket wall[J]. The International Journal of Advanced Manufacturing Technology, 2019, 101(1-4): 203-208. [15] Huang N, Yin C, Liang L, Hu J, Wu S*. Error compensation for machining of large thin-walled part with sculptured surface based on on-machine measurement[J]. The International Journal of Advanced Manufacturing Technology, 2018, 96(9-12): 4345-4352. [16] Huang N, Lynn R, Kurfess T*. Aggressive Spiral Toolpaths for Pocket Machining Based on Medial Axis Transformation[J]. Journal of Manufacturing Science and Engineering, 2017, 139(5): 051011. [17] Huang N*, Zhang S, Bi Q, Wang Y. Identification of geometric errors of rotary axes on 5-axis machine tools by on-machine measurement[J]. The International Journal of Advanced Manufacturing Technology, 2016, 84(1-4): 505-512. [18] Huang N, Jin Y, Bi Q*, Wang Y. Integrated post-processor for 5-axis machine tools with geometric errors compensation[J]. International Journal of Machine Tools and Manufacture, 2015, 94: 65-73. [19] Huang N, Bi Q, Wang Y*. Identification of two different geometric error definitions for the rotary axis of the 5-axis machine tools[J]. International Journal of Machine Tools and Manufacture, 2015, 91: 109-114. [20] Huang N, Bi Q, Wang Y*, Sun C. 5-Axis adaptive flank milling of flexible thin-walled parts based on the on-machine measurement[J]. International Journal of Machine Tools and Manufacture, 2014, 84: 1-8.

学术兼职

International Journal of Machine Tools and Manufacture，Measurement，International Journal of Advanced Manufacturing Technology，IEEE Access等期刊审稿人