This paper describes a numerical study on the thermal conductivity (TC) of core-shell nanoparticle polymer composites under the effects of thermal contact resistance (TCR), in addition to other parameters. Finite element method is used for both numerical simulation and solving the related nonlinear equations. Consequently, the effective thermal conductivity (ETC) depends significantly on the TCR, and it decreases sharply for larger volume fractions (VF) and larger TC of core-shell. The ETC from the present study matches well with that obtained by Felske model only if the TCR is negligible. Core VF of 0.516 times greater than that of shell is a necessary condition for an existence of the maximum ETC regardless of the presence of the TCR. In ...
This paper reports the experimental study carried out to establish the dependence of the thermal con...
This chapter reviews the recent research progress of graphene, with an emphasis on its thermal condu...
We report and model a linear increase in the thermal conductivity (j) of polymer composites incorpor...
This paper describes an extensive study on enhancing the thermal conductivity (TC) of core-shell nan...
Heterogeneous nanofillers have been regarded as a promising candidate for enhancing the thermal cond...
Adding dual kinds of nanoparticle fillers with higher thermal conductivity (TC) into matrix material...
In this paper the thermal conductivity of epoxy-based composite materials is analysed. Two and three...
This paper presents an investigation on the thermal conductivity (TC) enhancement for polymer compos...
Polymers are attractive candidates for the packaging industry given their ease of processing, abunda...
The growing demand toward miniaturization and power device packaging required new die-attach materia...
AbstractCarbon nanotubes (CNTs) are allotrope of carbon having a cylindrical structure. They have re...
Enhancing the thermal conductivity of polymer materials is actively being attempted by applying meta...
This chapter reviews the recent research progress of graphene, with an emphasis on its thermal condu...
Heat transport in polymer nanocomposites reinforced with graphite nanoplatelets (GNPs) is studied us...
The thermal conductivity of particulate composite models is well documented in the literature. This ...
This paper reports the experimental study carried out to establish the dependence of the thermal con...
This chapter reviews the recent research progress of graphene, with an emphasis on its thermal condu...
We report and model a linear increase in the thermal conductivity (j) of polymer composites incorpor...
This paper describes an extensive study on enhancing the thermal conductivity (TC) of core-shell nan...
Heterogeneous nanofillers have been regarded as a promising candidate for enhancing the thermal cond...
Adding dual kinds of nanoparticle fillers with higher thermal conductivity (TC) into matrix material...
In this paper the thermal conductivity of epoxy-based composite materials is analysed. Two and three...
This paper presents an investigation on the thermal conductivity (TC) enhancement for polymer compos...
Polymers are attractive candidates for the packaging industry given their ease of processing, abunda...
The growing demand toward miniaturization and power device packaging required new die-attach materia...
AbstractCarbon nanotubes (CNTs) are allotrope of carbon having a cylindrical structure. They have re...
Enhancing the thermal conductivity of polymer materials is actively being attempted by applying meta...
This chapter reviews the recent research progress of graphene, with an emphasis on its thermal condu...
Heat transport in polymer nanocomposites reinforced with graphite nanoplatelets (GNPs) is studied us...
The thermal conductivity of particulate composite models is well documented in the literature. This ...
This paper reports the experimental study carried out to establish the dependence of the thermal con...
This chapter reviews the recent research progress of graphene, with an emphasis on its thermal condu...
We report and model a linear increase in the thermal conductivity (j) of polymer composites incorpor...