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About Me

I am a Ph.D. candidate at Texas A & M University in MSEN. My research focuses on the data-driven material discovery and design, along with building quantitative model and programming. One of the work relates the microstructure simulation with Ni-based Addictive Manufacturing Materials. This computational method can help to avoid the undesirable phases and choose the feasible process parameters in the experiment , based on the physical mechanism of the materials. I am also working on coupling the Lattice Boltzmann Method with current model. The accuracy of the model increases after implementing LBM due to the consideration of fluid flow, since the convection is non-negligible in AM.

Publication

Xue-Qin Huang, Yue-Xing Chen, Mei-Jie Yin, Dan Feng, Jia-Qing He, origin of the enhancement in transport properties on polycrystalline SnSe with compositing two-dimensional material MoSe2. Nanotechnology 28(2017) 105708 Download paper here

Yue-Xing Chen, Zhen-Hua Ge, Mei-Jie Yin, Dan Feng, Xue-Qin Huang, Wen-Yu Zhao, Jia-Qing He, Understanding of the Extremely Low Thermal Conductivity in High Performance Polycrystalline SnSe through Potassium Doping. Adv. Funct. Mater. 2016, 26, 6836-6845. Download paper here

Research Experience

September 2017-Present
PhD, MSEN., TAMU

Mentor: Dr. Raymundo Arroyave
Project title: Phase-field simulation of solidification morphology in laser powder deposition of Ni-based Binary Alloys

  • Microstructure simulation on Ni-based additive manufacturing materials
  • Coupling the dissipation Phase-Field model with the Lattice Boltzmann model
Sept.2015-June 2017
Undergraduate Research Assistant, PHY., SUStech

Mentor: Dr. Jiaqing He
Project title: Enhancement of thermoelectric properties on polycrystalline SnSe by composite with two-dimensional material MoSe2