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2022

  • Zhang, X., Yang, J., Ni, M. & Zhang, N. (2022). Study of coupling effects on the three-dimensional magnetohydrodynamic flows around single and tandem cylinders in duct. Numerical Heat Transfer, Part A: Applications, 82(9), 576-579.
  • Zhang, X., Yang, J., Ni, M., Zhang, N., & Yu, X. (2022). Experimental and numerical studies on the three-dimensional flow around single and two tandem circular cylinders in a duct. Physics of Fluids, 34, 033610.

2021

  • Jia, X., Yang, J. C., Zhang, J., Chen, L., Ni, M. J. (2021) Collision dynamics of binary liquid metal droplets under horizontal magnetic field. Physical Review Fluids, 6, 103702. https://doi.org/10.1103/PhysRevFluids.6.103702
  • Yang, J. C., Vogt, T., Eckert, S. (2021) Transition from steady to oscillating convection rolls in Rayleigh-Bénard convection under the influence of a horizontal magnetic field. Physical Review Fluids, 6, 023502. https://doi.org/10.1103/PhysRevFluids.6.023502
  • Vogt, T.#, Yang, J. C.#, Schindler, F., Eckert, S. (2021) Free-fall velocities and heat transport enhancement in liquid metal magneto-convection. Journal of Fluid Mechanics. 915, 25, A68. https://doi.org/10.1017/jfm.2021.108

2020

  • Yang, J. C., Qi, T. Y., Ren, D. W., Ni, M. J., Liu, B. Q., Hu, J. S., & Li, J. G. (2020). Magnetohydrodynamic effects on liquid metal film flowing along an inclined plate relating to plasma facing components. Nuclear Fusion, 60(8), 086003.
  • Ren, D. W., Wu, S., Yang, J. C.*, & Ni, M. J. * (2020). Investigation of liquid metal drop impingement on a liquid metal surface under the influence of a horizontal magnetic field. Physics of Fluids, 32(5), 053311.
  • Wang, Y., Sun, G., Yang, J., Zhang, L., & Zhou, J. (2020). A soft sandwich structure enables voltage-induced actuation of liquid metal embedded elastomers. AIP Advances, 10(1), 015016.
  • 詹军, 张杰, 阳倦成*, 倪明玖*. 细长椭球体在水中自由下落的运动特性实验研究. 力学学报, 2020, 52(3): 716-727.

2019

  • Jia, X.#, Yang, J. C. #, Zhang, J., & Ni, M. J. (2019). An experimental investigation on the collision outcomes of binary liquid metal droplets. International Journal of Multiphase Flow, 116, 80-90.
  • 尚超, 阳倦成*, 张杰, 倪明玖*. 镓铟锡液滴撞击泡沫金属表面的运动学特性研究. 力学学报, 2019, 51(2):43-44.
  • 刘佰奇, 阳倦成*, 齐天煜, 任东伟, & 倪明玖*. (2019). 水平磁场中液态锂膜流动实验装置及初步结果. 核聚变与等离子体物理, v.39;No.158(01), 64-69.

2018

  • Han, T. Y., Yang, J. C. *, Zhang, J., & Ni, M. J. * (2018). Three-dimensional numerical simulation on the spreading characteristics of a liquid metal droplet in a horizontal magnetic field. Numerical Heat Transfer, Part A: Applications, 74(12), 1786-1803.
  • 倪明玖阳倦成, 任东伟, et al. 聚变堆相关的液态金属膜流初步实验研究. 力学学报, 2018, 50(06):105-112.
  • Liu, B. Q., Yang, J. C. *, Qi, T. Y., Ren, D. W., Zhang, J., & Ni, M. J. * (2018). Experimental study on the lithium film flow in the spanwise magnetic field. Fusion Engineering and Design, 136, 522-526.   
  • Tan, Y. Q., Liu, R. C., Dai, S. J., Wang, X. D., Ni, M. J., Yang, J. C., ... & Karcher, C. (2018). Preliminary experimental study on applicability of Lorentz force velocimetry in an external magnetic field. Nuclear Science and Techniques, 29(6), 1-8.
  • Yang, J. C., Qi, T. Y., Han, T. Y., Zhang, J., & Ni, M. J. (2018). Elliptical spreading characteristics of a liquid metal droplet impact on a glass surface under a horizontal magnetic field. Physics of Fluids, 30(1), 012101.
  • Yang, J. C., Qi, T. Y., Ren, D. W., Liu, B. Q., & Ni, M. J. (2018). Rearrangement of liquid metal surface waves by a uniform transverse magnetic field. Experiments in Fluids, 59(11), 1-16.
  • Yang, J. C., Qi, T. Y., Ren, D. W., Liu, B. Q., & Ni, M. J. (2018). Surface waves of liquid metal film flow under the influence of spanwise magnetic field. Fusion Engineering and Design, 130, 42-47.

2016-2017

  • Qi, T. Y., Liu, C., Ni, M. J., & Yang, J. C. (2017). The linear stability of Hunt-Rayleigh-Bénard flow. Physics of Fluids, 29(6), 064103.
  • 阳倦成, 齐天煜, 刘佰奇, et al. 磁场作用下液态金属膜流铺展特性的实验研究[J]. 工程热物理学报, 2017(09):105-110.
  • Yang, J. C., Qi, T. Y., Ni, M. J., & Wang, Z. H. (2016). Flow patterns of GaInSn liquid on inclined stainless steel plate under a range of magnetic field. Fusion Engineering and Design, 109, 861-865.
  • Zhang, J., Han, T. Y., Yang, J. C., & Ni, M. J. (2016). On the spreading of impacting drops under the influence of a vertical magnetic field. Journal of Fluid Mechanics, 809.

2015年之前

  • Yang, J., Li, F., Ni, M., & Yu, B. (2015). Analysis of heat transfer performance for turbulent viscoelastic fluid-based nanofluid using field synergy principle. Science China Technological Sciences, 58(7), 1137-1145.
  • Yang, J. C., Li, F. C., Xu, H. P., He, Y. R., Huang, Y. M., & Jiang, B. C. (2015). Heat transfer performance of viscoelastic-fluid-based nanofluid pipe flow at entrance region. Experimental Heat Transfer, 28(2), 125-138.
  • Yang, J. C., Li, F. C., Cai W. H., Zhang H. N., & Yu B. (2015). Direct numerical simulation of viscoelastic-fluid-based nanofluid turbulent channel flow with heat transfer. Chinese Physics B, 24(8), 084401.
  • Yang, J. C., Li, F. C., Cai, W. H., Zhang, H. N., & Yu, B. (2014). On the mechanism of convective heat transfer enhancement in a turbulent flow of nanofluid investigated by DNS and analyses of POD and FSP. International Journal of Heat and Mass Transfer, 78, 277-288.
  • Li, F. C., Yang, J. C., Zhou, W. W., He, Y. R., Huang, Y. M., & Jiang, B. C. (2013). Experimental study on the characteristics of thermal conductivity and shear viscosity of viscoelastic-fluid-based nanofluids containing multiwalled carbon nanotubes. Thermochimica Acta, 556, 47-53.
  • Yang, J. C., Li, F. C., He, Y. R., Huang, Y. M., & Jiang, B. C. (2013). Experimental study on the characteristics of heat transfer and flow resistance in turbulent pipe flows of viscoelastic-fluid-based Cu nanofluid. International Journal of Heat and Mass Transfer, 62, 303-313.
  • Yang, J. C., Li, F. C., Zhou, W. W., He, Y. R., & Jiang, B. C. (2012). Experimental investigation on the thermal conductivity and shear viscosity of viscoelastic-fluid-based nanofluids. International Journal of Heat and Mass Transfer, 55(11-12), 3160-3166.
  • Li, X. B., Li, F. C., Yang, J. C., Kinoshita, H., Oishi, M., & Oshima, M. (2012). Study on the mechanism of droplet formation in T-junction microchannel. Chemical engineering science, 69(1), 340-351.
  • Li, X. B., Li, F. C., Cai, W. H., Zhang, H. N., & Yang, J. C. (2012). Very-low-Re chaotic motions of viscoelastic fluid and its unique applications in microfluidic devices: a review. Experimental thermal and fluid science, 39, 1-16.
  • Qi, C., He, Y., Hu, Y., Yang, J., Li, F., & Ding, Y. (2011). Natural convection of Cu-Gallium nanofluid in enclosures. Journal of heat transfer, 133(12).
  • Zhang, H. N., Li, F. C., Cao, Y., Yang, J. C., Li, X. B., & Cai, W. H. (2011, September). The vortex structures of elastic turbulence in 3D Kolmogorov flow with polymer additives. In AIP Conference Proceedings (Vol. 1376, No. 1, pp. 72-74). American Institute of Physics.
  • Cao, Y., Li, F. C., Zhang, H. N., Cai, W. H., & Yang, J. C. (2011, September). Numerical Simulation of Viscoelastic Fluid Flow in the Curvilinear Micro‐Channel. In AIP Conference Proceedings (Vol. 1376, No. 1, pp. 613-615). American Institute of Physics.
  • Li, F. C., Zhang, H. N., Cai, W. H., & Yang, J. C. (2010, January). Extended Self-Similarity in Drag-Reduced Turbulent Flow of Viscoelastic Fluid. In Fluids Engineering Division Summer Meeting (Vol. 49484, pp. 2019-2024).
  • Li, X. B., Yang, J. C., & Li, F. C. (2010, January). Numerical Study on Liquid Droplet Formation in T-Junction Microchannel. In International Conference on Nanochannels, Microchannels, and Minichannels (Vol. 54501, pp. 1669-1675).
  • 张红娜, 李凤臣, 蔡伟华, 阳倦成, 李小斌. 三维Kolmogorov流动弹性湍流直接数值模拟研究. 工程热物理学报, 2011, (06):973-976.
  • 阳倦成,张红娜,李小斌,蔡伟华,张彦,李凤臣. 黏弹性流体纯弹性不稳定现象研究综述. 力学进展, 2010, 40(5):1-22.
  • 李凤臣, 邹志林, 蔡伟华, 阳倦成,张红娜. 减阻剂水溶液内弹体入射超空泡特性实验研究. 工程热物理学报, 2010, V31(005):857-862.
  • 李东阳,李凤臣, 阳倦成,张红娜,曹阳,何玉荣. 黏弹性流体基纳米流体湍流对流换热直接数值模拟研究. 工程热物理学报, 2013. 34(5): 961-964.
  • 阳倦成, 徐鸿鹏, 李凤臣, 黏弹性流体基纳米流体流变学特性. 化工学报, 2014, 65(S1):199-205.
  • 阳倦成, 李凤臣, 周文武, 徐鸿鹏, 李东阳, 何玉荣, 黏弹性流体基铜纳米流体流动与传热实验研究. 工程热物理学报, 2014, 35(2)366-370.

 

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  • 阳倦成; 张祥飞; 吕泽; 张年梅; 倪明玖; 在强磁场条件下测量导电流体中速度和涡量的装置及方法, 2020-12-21, 中国, 2020115150596.   
  • 倪明玖; 宣益民; 阳倦成; 潘定羿; 一种液态金属内部的速度测量方法、装置及存储介质, 2020-11-09, 中国, 2020113025892.   
  • 倪明玖; 吕泽; 阳倦成; 强磁场下液态金属速度场高时空精度的测量系统及方法,2020-2, 中国, CN110794164A.  
  • 倪明玖; 阳倦成; 刘佰奇; 液态偏滤器和改善液态偏滤器表面膜流铺展特性的方法, 2020-7-20, 中国, 202010701210.9.  
  • 倪明玖; 王泽辉; 刘佰奇; 阳倦成; 一种偏滤器, 2020-10-9, 中国, ZL201922199189.2.  
  • 倪明玖; 吕泽; 阳倦成; 强磁场下液态金属速度场高时空精度的测量装置, 2019-12-13, 中国, ZL201922231304.X.   
  • 阳倦成; 倪明玖; 刘佰奇; 张杰; 齐天煜; 一种通过提高液固表面浸润性实现液体大面积铺展的方法, 2017-1-4, 中国, ZL201410727861.X.   
  • 倪明玖; 阳倦成; 张杰; 一种强磁场下的连续金属液膜生成装置及方法, 2016-8-24, 中国, ZL201410345383.6.    

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