Response to 'Comment on 'Effective thermal conductivity of metal and non-metal particulate composites with interfacial thermal resistance at high volume fraction of nano to macro-sized spheres' [J. Appl. Phys. 117, 216101 (2015)]

Salah Aldin Faroughi; Christian Huber

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Response to 'Comment on 'Effective thermal conductivity of metal and non-metal particulate composites with interfacial thermal resistance at high volume fraction of nano to macro-sized spheres' [J. Appl. Phys. 117, 216101 (2015)]

机译：响应“关于在纳米到大尺寸球体的高体积分数下具有界面热阻的金属和非金属微粒复合材料的有效导热系数”的评论[J.应用物理117，216101（2015）]

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In this response, we clarify some of the misconceptions that were brought up by Pal's Comments about our manuscript [S. A. Faroughi and C. Huber, J. Appl. Phys. 117, 055104 (2015)]. The main issue that was raised is that we account for the correction on the excluded volume (the net volume of the continuous phase in a finite composite decreases with increasing filler content) twice. We show here that this statement is incorrect and that our model is consistent with other models derived from a different standpoint. We also address the other comments raised by Pal.

机译：在此回复中，我们澄清了帕尔（Pal）对我们的手稿的评论[S. A. Faroughi和C. Huber，J。Appl。物理117，055104（2015）]。提出的主要问题是我们对排除体积的修正（有限复合物中连续相的净体积随填料含量的增加而减少）进行了两次修正。我们在这里表明该陈述是不正确的，并且我们的模型与从不同角度得出的其他模型是一致的。我们还将解决帕尔提出的其他意见。

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来源
《Journal of Applied Physics》 |2015年第21期|216102.1-216102.3|共3页
作者
Salah Aldin Faroughi; Christian Huber;
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作者单位

School of Civil and Environmental Engineering, Georgia Institute of Technology, Atlanta, GA, 30332, USA;

School of Earth and Atmospheric Sciences, Georgia Institute of Technology, Atlanta, GA, 30332, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
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1. Comment on 'Effective thermal conductivity of metal and non-metal particulate composites with interfacial thermal resistance at high volume fraction of nano to macro-sized spheres' [J. Appl. Phys. 117,055104 (2015)] [J] . Rajinder Pal Journal of Applied Physics . 2015,第21期

机译：评论“金属和非金属微粒复合材料的有效导热系数，在纳米到宏观球体的高体积分数下具有界面热阻” [J.应用物理117,055104（2015）]
2. Effective thermal conductivity of metal and non-metal particulate composites with interfacial thermal resistance at high volume fraction of nano to macro-sized spheres [J] . Salah Aldin Faroughi, Christian Huber Journal of Applied Physics . 2015,第5期

机译：金属和非金属微粒复合材料的有效导热系数，在大体积的纳米级至大尺寸球体中具有界面热阻
3. Response to “Comment on ‘Effective thermal conductivity in thermoelectric materials’” [J. Appl. Phys. 113, 204904 (2013)] [J] . Journal of Applied Physics . 2014,第12期

机译：回应“关于“热电材料中的有效导热系数”的评论” [J.应用物理113，204904（2013）]
4. Effective Thermal Conductivity of Graded Nanocomposites with Interfacial Thermal Resistance [C] . H. M. Yin, G. H. Paulino, W. G. Buttlar, International Conference on Multiscale and Functionally Graded Materials . 2008

机译：具有界面热阻的渐变纳米复合材料的有效导热性
5. Fabrication, thermal expansion, thermal conductivity, and mechanical properties of high particulate volume fraction aluminum-matrix composites. [D] . Lai, Shy-Wen. 1993

机译：高颗粒体积分数铝基复合材料的制造，热膨胀，导热性和机械性能。
6. Erratum: Magnetic nanoparticles with high specific absorption rate of electromagnetic energy at low field strength for hyperthermia therapy J. Appl. Phys. 117 094302 (2015) [O] . Fridon Shubitidze, Katsiaryna Kekalo, Robert Stigliano, -1

机译：勘误表：在低场强度下具有较高比能的电磁能的磁性纳米粒子用于热疗 J.应用物理117094302（2015）
7. Response to “Comment on ‘Effective thermal conductivity in thermoelectric materials’” J. Appl. Phys. 113, 204904 (2013) [O] . Baranowski Lauryn L., Snyder G. Jeffrey, Toberer Eric S. 2014

机译：回应“关于“热电材料中的有效导热系数”的评论” J.应用物理113，204904（2013）

Response to 'Comment on 'Effective thermal conductivity of metal and non-metal particulate composites with interfacial thermal resistance at high volume fraction of nano to macro-sized spheres' [J. Appl. Phys. 117, 216101 (2015)]

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