Role of the Interfacial Thermal Barrier in the Effective Thermal Diffusivity/Conductivity of SiC‐Fiber‐Reinforced Reaction‐Bonded Silicon Nitride

Abstract: Experimental thermal diffusivity data transverse to the fiber direction for composites composed of ;a reaction bonded silicon nitride matrix reinforced with uniaxially aligned carbon-coated silicon carbide fibers indicate the existence of a significant thermal barrier at the matrix-fiber interface. Calculations of the interfacial thermal conductances indicate that at 300°C and 1-atm N2, more than 90% of the heat conduction across the interface occurs by gaseous conduction. The magnitude of the interfacial cain… Show more

“…Of course, the Fe precipitates reduce the overall thermal conductivity owing to the additional interfaces between the Cu matrix and the Fe precipitates, and to the lower conductivity of the Fe precipitates themselves. Below a critical size of about 1 lm, they behave similarly to lattice defects, because the interfacial thermal barrier resistance is high compared to the contribution of the precipitate to conductivity [29,30]. Thus, the influence of precipitated Fe is much lower than in the dissolved state, as it was already hypothesized by [26].…”

Effect of heat treatment on phase structure and thermal conductivity of a copper-infiltrated steel

“…Of course, the Fe precipitates reduce the overall thermal conductivity owing to the additional interfaces between the Cu matrix and the Fe precipitates, and to the lower conductivity of the Fe precipitates themselves. Below a critical size of about 1 lm, they behave similarly to lattice defects, because the interfacial thermal barrier resistance is high compared to the contribution of the precipitate to conductivity [29,30]. Thus, the influence of precipitated Fe is much lower than in the dissolved state, as it was already hypothesized by [26].…”

Effect of heat treatment on phase structure and thermal conductivity of a copper-infiltrated steel

“…The filler mixed into polymers can improve the thermal conductivity of many polymers. The thermal conductivity of filled polymer composites depends on the granularity, dispersion state of fillers, and its interfacial thermal barrier [9][10][11][12], but the thermal conductivity mechanism is fairly complicated, especially for a highly filled system, and it can be very different according to various empirical or theoretical models [13][14][15][16]. Based on a polymer with good mechanical and adhesive properties, researchers have paid much attention to its thermal conductivity mechanism for a long time to reach its maximum thermal conductivity.…”

Thermal conductivity model of filled polymer composites

“…A lot of investigations (for example by Hasselman and coworkers [1,2]) show that interfacial gaps exist, which are formed mainly because of the mismatch in thermal expansion coefficients of constituents during the cooling process of manufacture. When the gap thickness is small compared to the mean free path of the gas molecules in the gap, heat conduction is independent of gap thickness.…”

An eigenfunction expansion–variational method in prediction of the transverse thermal conductivity of fiber reinforced composites considering interfacial characteristics