Add to ORKGIn a continuing in-house program at the NASA Lewis Research Center, analytical and numerical methods are being developed to apply radiative analysis to predict transient temperature distributions and heat flows in partially transmitting materials. Results have been obtained for a single plane layer, and a transient analysis is being developed for a two-layer composite where each layer has a different refractive index. Because the ceramic refractive indices are larger than one, internal reflections are produced at the surfaces and at the internal interface. Reflections tend to distribute energy within a layer, and this affects the transient temperature distributions
A first-principle approach is used to analyze combined conductive/radiative heat transfer in a high ...
A parametric study was performed to examine the effects of isotropic scattering on the heat transfer...
The index of refraction can considerably influence the temperature distribution and radiative heat f...
Surface convection and refractive index are examined during transient radiative heating or cooling o...
A method using a Green's function is developed for computing transient temperatures in a semitranspa...
Ceramic parts and coatings are needed to withstand high temperatures in advanced aircraft engines. I...
A simple set of equations is derived for predicting the temperature distribution and radiative energ...
An analysis is developed for obtaining transient temperatures in a two-layer semitransparent composi...
The two-flux method was used to obtain transient solutions for a plane layer including internal refl...
In this work the problem of interpretation of reflectivity data for semitransparent materials at hig...
Radiative transfer is analyzed in a semitransparent coating on an opaque substrate and in a semitran...
A simple set of equations is derived for predicting temperature radiative energy flow in a two-regio...
The analysis of radiative transfer becomes computationally complex for a composite when there are mu...
Equilibrium temperatures of an absorbing-emitting layer were obtained for exposure to incident radia...
A parametric study using a one dimensional model of a semitransparent gray thermal barrier coating w...
A first-principle approach is used to analyze combined conductive/radiative heat transfer in a high ...
A parametric study was performed to examine the effects of isotropic scattering on the heat transfer...
The index of refraction can considerably influence the temperature distribution and radiative heat f...
Surface convection and refractive index are examined during transient radiative heating or cooling o...
A method using a Green's function is developed for computing transient temperatures in a semitranspa...
Ceramic parts and coatings are needed to withstand high temperatures in advanced aircraft engines. I...
A simple set of equations is derived for predicting the temperature distribution and radiative energ...
An analysis is developed for obtaining transient temperatures in a two-layer semitransparent composi...
The two-flux method was used to obtain transient solutions for a plane layer including internal refl...
In this work the problem of interpretation of reflectivity data for semitransparent materials at hig...
Radiative transfer is analyzed in a semitransparent coating on an opaque substrate and in a semitran...
A simple set of equations is derived for predicting temperature radiative energy flow in a two-regio...
The analysis of radiative transfer becomes computationally complex for a composite when there are mu...
Equilibrium temperatures of an absorbing-emitting layer were obtained for exposure to incident radia...
A parametric study using a one dimensional model of a semitransparent gray thermal barrier coating w...
A first-principle approach is used to analyze combined conductive/radiative heat transfer in a high ...
A parametric study was performed to examine the effects of isotropic scattering on the heat transfer...
The index of refraction can considerably influence the temperature distribution and radiative heat f...