Title of article
“Thermal Mirror” Method for Measuring Physical Properties of Multilayered Coatings
Author/Authors
T. Elperin and G. Rudin ، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
23
From page
60
To page
82
Abstract
In this study theoretical principles underlying the photothermal displacement
(“thermal mirror”) method for measuring physical properties of opaque multilayered
and functionally graded coatings with low thermal conductivity are
analyzed. In this method, the specimen is locally heated by a power laser
beam, and a two-dimensional transient temperature field is formed in a specimen.
The physical basis for the photothermal displacement method is the
non-stationary buckling and displacement of an irradiated surface due to a
non-uniform thermal expansion. The surface is monitored by a low-power
probe beam of a second laser, which is reflected from the specimen, i.e., the
system operates as a convex “thermal mirror.” The photoinduced displacement
varies with time, and the probe beam is reflected at a different angle
depending on the slope of the displacement. The deflection angle is measured
as a function of time by a position sensor, and the results of these measurements
are compared with the theoretical dependence of the deflection angle
on time and physical properties of a coating. This dependence was determined
analytically from the solution of the two-dimensional thermal elasticity
problem. It is shown that for the specimen composed of a substrate and a
coating it is feasible to determine the properties of the coating, e.g., the thermal
diffusivity and coefficient of linear thermal expansion provided that the
analogous properties of the substrate are previously measured or otherwise
known.
Keywords
laser heating , Multilayer coating , Surface displacement , thermal elasticity.
Journal title
International Journal of Thermophysics
Serial Year
2007
Journal title
International Journal of Thermophysics
Record number
427430
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