非均匀圆锥体的稳态热传导问题

I. Ecsedi, A. Baksa
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引用次数: 0

摘要

大量的研究和教科书涉及径向非均匀圆柱的稳态热传导。相比之下,对锥形固体热传导问题的研究相对较少。本研究旨在为非均匀锥体热导问题的解决作出微薄的贡献。研究了非均匀锥体中的一维稳态热传导问题。在合适的球坐标系下,空心圆锥体的热导率取决于极坐标,而与径向坐标和方位角坐标无关。考虑了一种功能梯度类型的材料不均匀性。本文的所有结果都是基于傅立叶固体热传导理论。
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A steady-state heat conduction problem of a nonhomogeneous conical body
Numerous studies and textbooks deal with the steady-state thermal conduction of radially nonhomogeneous circular cylinder. In contrast, there are relatively few studies on the thermal conduction problems of conical solid bodies. This study is intended as a modest contribution to the solution of thermal conductance problems of nonhomogeneous conical bodies. A one-dimensional steady-state heat conduction in nonhomogeneous conical body is considered. The thermal conductivity of the hollow conical body in a suitable chosen spherical coordinate system depends on the polar angle but is independent of the radial coordinate and azimuthal angle coordinate. A functionally graded type of material inhomogeneity is considered. All results of the paper are based on Fourier’s theory of heat conduction in solid bodies.
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来源期刊
CiteScore
6.90
自引率
3.20%
发文量
0
审稿时长
8 weeks
期刊介绍: The Journal of Applied and Computational Mechanics aims to provide a medium for dissemination of innovative and consequential papers on mathematical and computational methods in theoretical as well as applied mechanics. Manuscripts submitted to the journal undergo a blind peer reviewing procedure conducted by the editorial board. The Journal of Applied and Computational Mechanics devoted to the all fields of solid and fluid mechanics. The journal also welcomes papers that are related to the recent technological advances such as biomechanics, electro-mechanics, advanced materials and micor/nano-mechanics. The scope of the journal includes, but is not limited to, the following topic areas: -Theoretical and experimental mechanics- Dynamic systems & control- Nonlinear dynamics and chaos- Boundary layer theory- Turbulence and hydrodynamic stability- Multiphase flows- Heat and mass transfer- Micro/Nano-mechanics- Structural optimization- Smart materials and applications- Composite materials- Hydro- and aerodynamics- Fluid-structure interaction- Gas dynamics
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