TWO-DIMENSIONAL FINITE ELEMENT MODEL OF TEMPERATURE DISTRIBUTION IN DERMAL TISSUES OF EXTENDED SPHERICAL ORGANS OF A HUMAN BODY
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Publication:2921501
DOI10.1142/S1793524512500659zbMath1296.92100MaRDI QIDQ2921501
Akshara Makrariya, Neeru Adlakha
Publication date: 8 October 2014
Published in: International Journal of Biomathematics (Search for Journal in Brave)
Finite element, Rayleigh-Ritz, Galerkin and collocation methods for ordinary differential equations (65L60) Physiological flow (92C35)
Related Items (3)
Two-dimensional finite element model to study temperature distribution in peripheral regions of extended spherical human organs involving uniformly perfused tumors ⋮ Thermal stability of biological tissues and their behavior in cold conditions — A mathematical model ⋮ Finite element approach to study the behavior of fluid distribution in the dermal regions of human body due to thermal stress
Cites Work
- Three dimensional finite element model to study heat flow in dermal regions of elliptical and tapered shape human limbs
- Unsteady state heat flow in epidermis and dermis of a human body
- Coaxial circular sector elements to study two-dimensional heat distribution problem in dermal regions of human limbs
- Effect of dermal tumours on temperature distribution in skin with variable blood flow
- FINITE ELEMENT MODEL TO STUDY THERMAL EFFECT OF UNIFORMLY PERFUSED TUMOR IN DERMAL LAYERS OF ELLIPTICAL SHAPED HUMAN LIMB
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