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Thermal Conductivity of Diamond/SiCNano-Polycrystalline Composites and Phonon Scatteringat Interfaces

机译：金刚石/ SiC的导热系数纳米多晶复合材料和声子散射在接口

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摘要

To compare the thermal properties of heterogeneous and homogeneous interfaces, polycrystalline composites are proposed. Thermal properties of heterogeneous and homogeneous interfaces in the composites are investigated using molecular dynamics simulations. The results indicate that when the inflow of heat arises from the same material, phonon scattering at heterogeneous interfaces is stronger than that at homogeneous interfaces. The phonon wave packet simulations indicate that the stronger phonon scattering at heterogeneous interfaces is caused by the combined actions of transmission coefficients and transmission time.

机译：为了比较异质和均质界面的热性能，提出了多晶复合材料。使用分子动力学模拟研究了复合材料中非均质和均质界面的热性能。结果表明，当热量流入来自同一材料时，异质界面处的声子散射要强于均匀界面处的声子散射。声子波包模拟表明，在异质界面处较强的声子散射是由传输系数和传输时间的共同作用引起的。

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期刊名称 ACS Omega
作者
Huicong Dong; Bin Wen; *; Yuwen Zhang; Roderick Melnik;
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年(卷),期 2017(2),5
年度 2017
页码 2344–2350
总页数 7
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专利

1. Thermal Conductivity of Diamond/SiC Nano-Polycrystalline Composites and Phonon Scattering at Interfaces [J] . Huicong Dong, Bin Wen, Yuwen Zhang, ACS Omega . 2017,第5期

机译：金刚石/ SiC纳米多晶复合材料的导热系数和界面处的声子散射
2. Effect of the contact conductivity of the diamond-metal binder interface on the thermal conductivity of diamond-containing composites [J] . Shmegera R. S., Podoba Ya. O., Kushch V. I., Journal of superhard materials: Sverkhtverdye materialy . 2015,第4期

机译：金刚石-金属粘合剂界面的接触电导率对含金刚石复合材料导热系数的影响
3. Thermal conductivity of Si/Ge nanocomposites with fractal tree-shaped networks by considering the phonon interface scattering [J] . Yongping Chen, Zilong Deng, Qikun Cheng International Journal of Heat and Mass Transfer . 2015,第SEPa期

机译：考虑声子界面散射的具有分形树形网络的Si / Ge纳米复合材料的热导率
4. Effect of Cr addition and processing conditions on interface microstructure and thermal conductivity of diamond/Cu composite [C] . H. Chen, C. C. Jia, S. J. Li International Conference on Composite Materials . 2011

机译：CR加法和加工条件对金刚石/ Cu复合材料界面微观结构和导热系数的影响
5. Phonon and electron mean free path dependent contributions to thermal conductivity in crystalline materials and thermal interface conductance across metal alloy-dielectric interfaces [D] . Freedman, Justin P. 2015

机译：声子和电子是平均自由路径依赖性对晶体材料的热导率的贡献和金属合金电介质界面的热界面电导
6. Thermal Conductivity of Diamond Composites [O] . Sergey V. Kidalov, Fedor M. Shakhov 2009

机译：金刚石复合材料的导热系数
7. Thermal Conductivity of Diamond/SiC Nano-Polycrystalline Composites and Phonon Scattering at Interfaces [O] . Huicong Dong, Bin Wen, Yuwen Zhang, 2017

机译：金刚石/ siC纳米多晶复合材料的导热系数与界面声子散射
8. Effect of Microstructure on the Thermal Conductivity of ZnS/Diamond Composites [R] . Every, A. G., Tzou, Y., Hasselman, D. P., 1991

机译：微观结构对Zns /金刚石复合材料导热系数的影响

Thermal Conductivity of Diamond/SiCNano-Polycrystalline Composites and Phonon Scatteringat Interfaces

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