The thermal conductivities of materials are extremely important for many practical applications, such as in understanding the thermal balance and history of the Earth, energy conversion of devices and thermal management of electronics. However, measurements of the thermal conductivity of materials under pr...
The thermal conductivities of materials are extremely important for many practical applications, such as in understanding the thermal balance and history of the Earth, energy conversion of devices and thermal management of electronics. However, measurements of the thermal conductivity of materials under pr...
Thermal conductivity of heterophase polymer compositions D. M. Bigg Pages 1-30 Model treatments of the heat conductivity of heterogeneous polymers V. P. Privalko, V. V. Novikov Pages 31-77 Electron behavior and magnetic properties of polymer nanocomposites D. Yu. Godovski Pages 79...
In article number 1903829, Guofeng Xie, Tian Wang, Gang Zhang, and co﹚orkers summarize the fundamental physical aspects of thermal conductivity in amorphous materials, which have valuable applications in flexible electronics, artificial intelligence chips, thermal protection, and thermoelectrics.doi:...
The temperature dependences of the thermal conductivity of silicon carbide- and silicon nitride-based materials prepared by various methods are presented. The thermal conductivity of silicon carbide–based materials prepared by reaction (SiSiC) and liquid-phase (LPSSiC) sintering and silicon nitride-based...
In the reported experiments, the thermal conductivity of various fiber- and particle-filled composite materials was measured in a temperature range from minus 180 to plus 140 degree C. Various epoxy and unsaturated polyester resins as well as some thermoplastics were used as matrix materials. Filler...
Thermal conductivity refers to the ability of a material to transfer heat, which is determined by the amount of heat that can be transferred by the material. It can be calculated by measuring the heat flux density per unit degree of temperature difference using Fourier's law. Thermal conductivit...
The ability to engineer the thermal conductivity of materials allows us to control the flow of heat and derive novel functionalities such as thermal rectification, thermal switching and thermal cloaking. While this could be achieved by making use of comp
一系列氧化物半导体BAND GAP(Synthesis and properties of epitaxial electronic oxide thin-film materials) Passivation of Amorphous Indium-Gallium-Zinc Oxide (IGZO) Thin… A transient hot-wire method for measuring the thermal conductivity of gases and liquids analysis of thermal conductivity in composite ad...
We report on measurements of the thermal conductivity of a number of amorphous materials, including several that have a low dielectric constant and which are of current interest for use as insulators in computer chips. The samples are thin films deposited onto Si substrates. Measurements are made ...