个人简介:
黄祥,博士,副教授,硕导。
主要任职:
多个国际期刊审稿人,国自然通讯评议人
研究方向:
数字化设计与制造技术、智能制造
研究领域:
氢能燃料电池多孔组件优化设计,包括微观结构表征、三维多孔纤维结构建模、传输性能仿真、基于孔隙网络模型的性能分析等。
学习工作经历:
2020.12- 至今 |
华侨大学 |
9499www威尼斯 |
副教授 |
2019.8-2020.8 |
科技部 |
人才中心 |
借调 |
2017.1-2018.1 |
佐治亚理工学院 |
机械工程学院 |
访问学者 |
2014.5-2020.11 |
浙江工业大学 |
机械工程学院 |
讲师 |
2010.9-2013.12 |
华南理工大学 |
数字化设计及制造 |
博士 |
2007.9-2010.4 |
南京航空航天大学 |
计算机应用技术 |
硕士 |
2003.9-2007.7 |
南京信息工程大学 |
计算机科学与技术 |
学士 |
科研项目:
国家自然科学基金青年基金项目:甲醇燃料电池制氢微反应器多孔纤维结构优化设计(51505426)主持;
国家自然科学基金面上项目:面向水管理性能优化的孔隙网络集成氢能燃料电池纤维多孔组件主动设计方法研究(51975529)主持;
华侨大学中青年教师科研提升资助计划项目(ZQN-905)主持;
学术论文:
[1] Xiang Huang*, Wei Zhou, Bin Liu, Kaiyong Jiang, Daxiang Den. The Impacts of Surface Microchannels on the Transport Properties of Porous Fibrous Media Using Stochastic Pore Network Modeling. Materials 14(24) 2021:7546
[2] Huai-Tao Shi, Jian-Qi Huang, Xiaotian Bai, Xiang Huang, Jie Sun. Nonlinear Anti-swing Control of Underactuated Tower Crane Based on Improved Energy Function. International Journal of Control Automation and Systems. 2021,19(12):3967-3982
[3] Xiang Huang*, Wei Zhou, Daxiang Deng. Effective Diffusion in Fibrous Porous Media: A Comparison Study between Lattice Boltzmann and Pore Network Modeling Methods. Materials 2021,14(4):756
[4] Xiang Huang*, Zhou Wei, et al. Validation of pore network modeling for determination of two-phase transport in fibrous porous media. Scientific reports. 2020(10):20852
[5] Liang Chen, Daxiang Deng, Guang Pi, Xiang Huang, Wei Zhou. Burr formation and surface roughness characteristics in micro-milling of microchannels. The International Journal of Advanced Manufacturing Technology, 2020, 111(5-6):1-14
[6] Yanlin Xie, Daxiang Deng, Guang Pi, Xiang Huang, Chenyang Zhao. Fabrication of silicon carbide microchannels by thin diamond wheel grinding. The International Journal of Advanced Manufacturing Technology 2020, 111(1-2):1-15
[7] Xiang Huang*, Tequila A. L. Harris, Yan Wang, et al. In-Plane Tensile Behavior of Sintered Fibrous Copper Systems Using Ball Chain Modeling. Journal of Materials Engineering and Performance.2020(29):2085-94.
[8] Daxiang Deng, Liang Chen, Wei Wan, Ting Fu, Xiang Huang. Flow boiling performance in pin fin- interconnected reentrant microchannels heat sink in different operational conditions. Applied Thermal Engineering. 2019, 150
[9] Xiang Huang*, Zhou Wei, et al. Pore network modeling of fibrous porous media of uniform and gradient porosity. Powder Technology. 2019 (343):350-361.
[10] Qi Zhou, Cao Longchao, Hui Zhou, Xiang Huang. Prediction of angular distortion in the fiber laser keyhole welding process based on a variable-fidelity approximation modeling approach. Journal of Intelligent Manufacturing. 2018, 29(6).
[11] Qi Zhou, Ping Jiang, Xiang Huang, Feng Zhang, Taotao Zhou. A Multi-objective robust optimization approach based on Gaussian process model. Structural and Multidisciplinary Optimization. 2018, 57(5)
[12] Qi Zhou, Feng Zhang, Xiang Huang. Aggregate multiple radial basis function models for identifying promising process parameters in magnetic field assisted laser welding. Journal of Manufacturing Processes 2017, 28:21-32
[13] Xiang Huang, Zhou Wei, et al. 3D stochastic modeling, simulation and analysis of effective thermal conductivity in fibrous media. Powder Technology. 2017(320):397-404.
[14] Xiang Huang, Zhou Wei, et al. Investigation of transport property of fibrous media: 3D virtual modeling and permeability calculation. Engineering with Computers 2017(4): 997-1005.
[15] Daxiang Deng, Qingsong Huang, Xie Yanlin, Xiang Huang, Xuyang Chu. Thermal performance of composite porous vapor chambers with uniform radial grooves. Applied Thermal Engineering. 2017, 125
[16] Xiang Huang*, Qinghui Wang, Zhou Wei, et al. Skeleton-based tracing of curved fibers from 3D X-ray microtomographic imaging. Results in Physics. 2016(6):170–177.
[17] Xiang Huang*, Qinghui Wang, Wei Zhou, et al. Morphology and transport properties of fibrous porous media. Powder Technology. 2015(283): 618-626.
[18] Daxiang Deng, Xie Yanlin, Qinsong Huang, Y. Tang, Lantao Huang, Xiang Huang. Flow boiling performance of Ω-shaped reentrant copper microchannels with different channel sizes. 2015. Experimental Thermal and Fluid Science. 69:8-18
[19] Xiang Huang, Qinghui Wang*, Wei Zhou, et al. A simple Fracture Energy prediction method for fibre network based on its morphological features extracted by X-ray tomography. Materials Science and Engineering A. 2013(585): 297-303.
[20] Qinghui Wang, Xiang Huang*, Wei Zhou, et al. Three-dimensional reconstruction and morphologic characteristics of porous metal fiber sintered sheet. Materials characterization. 2013(86): 49-58.
获奖情况:
博士国家奖学金
基于新材料调制的高精度光纤传感在线监测技术及装置,2020黑龙江省科技进步二等奖。
联系方式:
联系电话:15960386327
电子邮箱:522250912@qq.com oscarhx@hqu.edu.cn