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Qiang He

Research Associate Professor

Address: Lee Shau Kee Building A818, Tsinghua University, Beijing 100084, China

Email:heqiang@tsinghua.edu.cn

属性1 Research Associate Professor 属性2 Address: Lee Shau Kee Building A818, Tsinghua University, Beijing 100084, China
属性3 属性4 Email:heqiang@tsinghua.edu.cn
属性5 属性6
Education background

2014.09 - 2020.10 Tsinghua University, Beijing, China, PhD in Mechanical Engineering

Department of Mechanical Engineering

2010.09 - 2014.07 Harbin Institute of Technology, Harbin, China, Bachelor in Mechanical Engineering School of Mechanical and Electrical Engineering

Experience

2026.01-present, Institute of Mechanical Design, Department of Mechanical Engineering, Tsinghua University, Beijing. Research Associate Professor.

2023.01-2025.12, Institute of Mechanical Design, Department of Mechanical Engineering, Tsinghua University, Beijing. Research Assistant Professor.

2020.11-2022.12, Institute of Mechanical Design, Department of Mechanical Engineering, Tsinghua University, Beijing. Postdoctoral Researcher.

Honors and Awards

Selected for the 9th China Association for Science and Technology (CAST) Young Talent Support Project

Second Prize, 2025 China Machinery Industry Science and Technology Award (3rd of 12 contributors)

First Prize, 2023 Hydraulic, Hydrodynamic, Pneumatic & Mechanical Seals Industry Technological Progress Award (4th of 14 contributors)

Second Prize, 2022 China Machinery Industry Science and Technology Award (5th of 12 contributors)

Tsinghua University Outstanding Doctoral Dissertation Award, 2021

Academic Achievement

I have published over 50 papers in peer-reviewed academic journals. My SCI-indexed papers as the first author and corresponding author are listed below:

[1] K. Tang, W. Huang, X. Zhang, Q. He, B. Zhang, Z. Peng, S. Hu, Lattice Boltzmann simulation of droplet dynamics in binder jet three-dimensional printing, Phys Fluids 37(8) (2025).

[2] Y. Ran, W. Gao, Q. He, G. Zhu, Y. Liu, Y. Wang, K. Luo, W. Huang, Numerical investigation on immiscible two-phase flow in the mechanical seal gap, Tribology International 202 (2025).

[3] B. Guan, W. Huang, G. Zhu, Y. Hu, Z. Zheng, Q. He, Sharp-enforced physics-informed neural network for inverse hydrodynamic lubrication problem with film thickness discontinuity, Phys Fluids 37(12) (2025).

[4] B. Guan, Q. He, Y. Hu, Z. Zheng, W. Huang, Physics-informed neural network for hydrodynamic lubrication with film thickness discontinuity, Friction (2025).

[5] P. Yuan, Q. Cheng, Y. Hu, Q. He, W. Huang, D. Li, Phase-field-based finite element model for two-phase ferrofluid flows, Phys Fluids 36(2) (2024).

[6] Q. He, Y. Cheng, F. Hu, W. Huang, D. Li, A Comparative Study of Hydrodynamic Lattice Boltzmann Equation in Phase-Field-Based Multiphase Flow Models, Commun Comput Phys 35(4) (2024) 859-904.

[7] Q. Cheng, W. Huang, Q. He, Y. Hu, Centrifugal failure mechanism analysis for ferrofluid seals based on a bidirectional coupled multi-physics model, Tribology International 200 (2024).

[8] Q. He, F. Hu, W. Huang, Y. Hu, G. Cong, Y. Zhang, Modified Finite Difference Methods for Reynold Equation With Film Thickness Discontinuity, Journal of Tribology, 146 (2024).

[9] Q. He, W. Huang, J. Xu, Y. Hu, D. Li, A hybrid immersed interface and phase-field-based lattice Boltzmann method for multiphase ferrofluid flow, Computers & Fluids, 255 (2023).

[10] Y.Q. Cheng, Q. He, W.F. Huang, Y. Liu, Y.W. Li, D.C. Li, HL-nets: Physics-informed neural networks for hydrodynamic lubrication with cavitation, Tribology International, 188 (2023).

[11] Q. He, W. Huang, Y. Yin, D. Li, Y. Wang, A lattice Boltzmann model for liquid-vapor-solid flow with thermal phase change, Computers & Mathematics with Applications, 114 (2022) 60-72.

[12] Q. He, W. Huang, Y. Yin, D. Li, Y. Hu, A Droplet-Manipulation Method Based on the Magnetic Particle-Stabilized Emulsion and Its Direct Numerical Simulation, Langmuir, 38 (2022) 8211-8221.

[13] Q. He, W. Huang, Y. Yin, Y. Hu, Y. Li, D. Li, An improved lattice Boltzmann model for fluid–fluid–solid flows with high viscosity ratio, Phys Fluids, 34 (2022).

[14] Q. He, W. Huang, Y. Yin, Y. Hu, D. Li, A mass-conserving and volume-preserving lattice Boltzmann method with dynamic grid refinement for immiscible ternary flows, Phys Fluids, 34 (2022).

[15] Q. He, Y.J. Li, W.F. Huang, Y. Hu, Y.M. Wang, Lattice Boltzmann model for ternary fluids with solid particles, Phys Rev E, 101 (2020).

[16] Q. He, Y.J. Li, W.F. Huang, Y. Hu, D.C. Li, Y.M. Wang, Lattice Boltzmann model for dense suspended particles based on improved bounce-back method, Computers & Mathematics with Applications, 80 (2020) 552-567.

[17] Q. He, Y.J. Li, W.F. Huang, Y. Hu, D.C. Li, Y.M. Wang, A unified lattice Boltzmann model for immiscible and miscible ternary fluids, Computers & Mathematics with Applications, 80 (2020) 2830-2859.

[18] Q. He, Y. Li, W. Huang, Y. Hu, D. Li, Y. Wang, Lattice Boltzmann simulations of magnetic particles in a three-dimensional microchannel, Powder Technology, 373 (2020) 555-568.

[19] Q. He, D. Liu, W. Huang, J. Wang, Interactions of Oil Drops Induced by the Lateral Capillary Force and Surface Tension Gradients, Langmuir, 35 (2019) 14967-14973.

[20] Q. He, Y.J. Li, W.F. Huang, Y. Hu, Y.M. Wang, Phase-field-based lattice Boltzmann model for liquid-gas-solid flow, Phys Rev E, 100 (2019).

[21] Q. He, W.F. Huang, Y. Liu, X.F. Liu, Y.J. Li, Y.M. Wang, Contact status between seal ring and its support: crucial factor in hydrostatic mechanical face seal, Ind Lubr Tribol, 71 (2019) 885-892.

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