数学物理学报(英文版) ›› 1992, Vol. 12 ›› Issue (2): 144-153.

• 论文 • 上一篇    下一篇

A THEORETICAL APPROACH TO THERMAL PROPERTY OF ARRAY OF CYLINDERS EMBEDDED IN HOMOGENEOUS MATRIX

顾国庆1,2, 郑大昉3   

  1. 1. Center of Theoretical Physics, Chinese Center for Advanced Science and Technology(World Laboratory), Beijing(100080), China;
    2. Department of Systems Engineering, Shanghai Institute of Mechanical Engineering, Shanghai, China;
    3. Department of Applied Physics, South China University of Technology, Guangzhou(510641), China
  • 收稿日期:1990-06-05 出版日期:1992-06-25 发布日期:1992-06-25

A THEORETICAL APPROACH TO THERMAL PROPERTY OF ARRAY OF CYLINDERS EMBEDDED IN HOMOGENEOUS MATRIX

Gu Guoqing1,2, Zheng Dafang3   

  1. 1. Center of Theoretical Physics, Chinese Center for Advanced Science and Technology(World Laboratory), Beijing(100080), China;
    2. Department of Systems Engineering, Shanghai Institute of Mechanical Engineering, Shanghai, China;
    3. Department of Applied Physics, South China University of Technology, Guangzhou(510641), China
  • Received:1990-06-05 Online:1992-06-25 Published:1992-06-25

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摘要: We investigate in this article the thermal conductivity of array of cylinders embedded in a homogeneous matrix. Using Green's function, we confirm that the method invented by Rayleigh can be generalized to deal with thermal property of these systems. A technique for calculating effective thermal conductivities of these systems is proposed. As an example, we consider a system with square symmetry, and a neat formula for effective thermal conductivity is derived. We show that the method also includes the proof of Keller theorem.

Abstract: We investigate in this article the thermal conductivity of array of cylinders embedded in a homogeneous matrix. Using Green's function, we confirm that the method invented by Rayleigh can be generalized to deal with thermal property of these systems. A technique for calculating effective thermal conductivities of these systems is proposed. As an example, we consider a system with square symmetry, and a neat formula for effective thermal conductivity is derived. We show that the method also includes the proof of Keller theorem.

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