Thermal conductivity versus depth profiling of inhomogeneous materials using the hot disc technique
Journal article, 2016
Transient measurements of thermal conductivity are performed with hot disc sensors on samples having a thermal conductivity variation adjacent to the sample surface. A modified computational approach is introduced, which provides a method of connecting the time-variable to a corresponding depth-position. This allows highly approximate—yet reproducible—estimations of the thermal conductivity vs. depth. Tests are made on samples incorporating different degrees of sharp structural defects at a certain depth position inside a sample. The proposed methodology opens up new possibilities to perform non-destructive testing; for instance, verifying thermal conductivity homogeneity in a sample, or estimating the thickness of a deviating zone near the sample surface (such as a skin tumor), or testing for presence of other defects
Depth profiling techniques
Thermodynamic properties
Natural materials
Finite-element analysis
Nondestructive testing techniques
Thermal conductivity
Integral calculus
Contact impedance
Diseases and conditions
Author
Andrey Sizov
Hot Disk AB
Daniel Cederkrantz
Hot Disk AB
Lars Salmi
Region Västra Götaland
Arne Rosen
Institution of physics at Gothenburg University
Lars Jacobson
Stiftelsen Chalmers Industriteknik
S. E. Gustafsson
University of Gothenburg
Mattias Gustavsson
Hot Disk AB
Review of Scientific Instruments
0034-6748 (ISSN) 1089-7623 (eISSN)
Vol. 87 7 074901-Subject Categories
Materials Engineering
Medical Engineering
DOI
10.1063/1.4954972