Abstract
In this study, we develop the heat conduction equation for bio-thermoelastic skin tissue with one relaxation time using Penne’s principle, the first law of thermodynamics, and the second law of thermodynamics. We use these novel governing equations to explore the influence of arterial blood temperature on physical parameters in homogeneous, isotropic, thermally conducting half-space skin tissue. Normal mode analysis is applied in the domain to acquire analytical results for measured quantities. For a given skin tissue, these expressions are numerically calculated and graphically illustrated. The findings were predicted and tested for various values of arterial blood temperature.
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