Research on Effect of Particle Size and Sintering Parameters on Porous Transducer

机译：粒径和烧结参数对多孔换能器影响的研究

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The paper is focused on combining Potts Kinetic Monte Carlo method (KMCM) with Discrete Element method (DEM) to analyze the porous transducer sintered by glass microspheres. Effects of parameters including particle size distribution (PSD), mean particle size and sintering temperature, are studied by analyzing relative density and permeability of the porous transducer reconstructed based on its production process. Simulation results show that porous transducer made from glass microspheres with larger mean particle size and narrower PSD performs larger permeability. Meanwhile, higher sintering temperature can speed up the densification rate during sintering process. The above results can be applied to guide the fabrication process of porous transducer.

机译：本文的重点是结合Potts动力学蒙特卡罗方法（KMCM）和离散元素方法（DEM）来分析玻璃微球烧结的多孔换能器。通过分析基于其生产工艺重建的多孔换能器的相对密度和磁导率，研究了包括粒度分布（PSD），平均粒度和烧结温度在内的参数的影响。仿真结果表明，由平均粒径较大，PSD较窄的玻璃微球制成的多孔换能器具有较大的磁导率。同时，较高的烧结温度可加快烧结过程中的致密化速率。以上结果可用于指导多孔换能器的制造过程。

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《IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale》|2018年|37-41|共5页
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Ruoyu Guo; Meiling Wang; Li Ming; Siyuan Cheng; Ke Ning;
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Transducers; Permeability; Glass; Microstructure; Process control; Temperature sensors; Monte Carlo methods;

机译：传感器;磁导率;玻璃;微结构;过程控制;温度传感器;蒙特卡洛法;

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专利

1. Effects of Particle Size and Particle Size Distribution on Heat Dissipation of Heat Pipes with Sintered Porous Wicks [J] . Yueh-Ju Lin, Kuen-Shyang Hwang Metallurgical and Materials Transactions A . 2009,第9期

机译：粒径和粒径分布对烧结多孔灯芯热管散热的影响
2. Effects of Particle Size and Particle Size Distribution on Heat Dissipation of Heat Pipes with Sintered Porous Wicks [J] . YUEH-JU LIN, KUEN-SHYANG HWANG Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2009,第9期

机译：粒径和粒径分布对烧结多孔灯芯热管散热的影响
3. Manufacturing of Porous Polycaprolactone Prepared with Different Particle Sizes and Infrared Laser Sintering Conditions: Microstructure and Mechanical Properties [J] . Salmoria G. V., Hotza D., Klauss P., Advances in Mechanical Engineering . 2014,第Pta8期

机译：不同粒径和红外激光烧结条件制备的多孔聚己内酯的制备：微观结构和力学性能
4. Research on Effect of Particle Size and Sintering Parameters on Porous Transducer [C] . Ruoyu Guo, Meiling Wang, Li Ming, IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale . 2018

机译：粒径和烧结参数对多孔换能器的影响研究
5. Simulations and modeling of unequal sized particles sintering . [D] . Kumar, Vineet. 2011

机译：不等尺寸颗粒烧结的模拟与建模。
6. Preparation of Porous Stainless Steel Hollow-Fibers through Multi-Modal Particle Size Sintering towards Pore Engineering [O] . Francois-Marie Allioux, Oana David, Miren Etxeberria Benavides, 2017

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7. Porous Sintered Compact for Thermoelectric Transducer-Thermoelectric Element for Porous Thermoelectric Device of Gas Combustion Type-. [O] . Koji Hayashi 1996

机译：用于热电传感器热电元件的多孔热电元件，气体燃烧型多孔热电元件。
8. The Effects of Sintering Parameters and Particle Size Distributions on P/M Steel Forgings. [R] . crowson,andrew anderson, ferrel e. 1976

机译：烧结参数和粒度分布对p / m钢锻件的影响。

Research on Effect of Particle Size and Sintering Parameters on Porous Transducer

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