Title of article
Mathematical Models for Pulse-Heating Experiments
Author/Authors
A. Langrova and J. Spisiak ، نويسنده , , F. Righini and G. C. Bussolino ، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2001
Pages
11
From page
1241
To page
1251
Abstract
Accurate measurements of thermophysical properties at high temperatures
(above 1000 K) have been obtained with millisecond pulse-heating techniques
using tubular specimens with a blackbody hole. In the recent trend toward
applications, simpler specimens in the form of rods or strips have been used,
with simultaneous measurement of the normal spectral emissivity using either
laser polarimetry or iIntegrating sphere reflectometry. In these experiments the
estimation of the heat capacity and of the hemispherical total emissivity is based
on various computational methods that were derived assuming that the tem-
perature was uniform in the central part of the specimen (long thin-rod
approximation). The validity of this approach when using specimens with large
cross sections (rods, strips) and when measuring temperature on the specimen
surface must be verified. The application of the long thin-rod approximation to
pulse-heating experiments is reconsidered, and an analytical solution of the heat
equation that takes into account the temperature dependence of thermophysical
properties is preseInted. A numerical model that takes into account the tem-
perature variations across the specimen has been developed. This model can be
used in simulated experiments to assess the magnitude of specific phenomena
due to the temperature gradient inside the specimen, in relation to the specimen
geometry and to the specific thermophysical properties of different materials.
Keywords
long thin-rod approximation , high temperature , pulse heating. , modeling
Journal title
International Journal of Thermophysics
Serial Year
2001
Journal title
International Journal of Thermophysics
Record number
426777
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