Title :
Analysis of high temperature burns
Author :
Diller, Kenneth R. ; Capt, W. Michael
Author_Institution :
Biomed. Eng. Program, Texas Univ., Austin, TX, USA
Abstract :
We have developed a finite element model to describe the thermal interaction between tissue and a high temperature material with defined properties. The model solves the thermal diffusion equation in both the tissue and the material to determine the transient temperature gradients that develop. The tissue response is dependent on both the temperature and thermal inertia of the contacting material. The transient temperature solution, obtained from the thermal analysis, is input to a damage model to calculate a quantitative value for injury as a function of time of exposure and depth into the tissue
Keywords :
biothermics; physiological models; skin; temperature distribution; thermal analysis; Arrhenius model; activation energy; contacting material; damage model; depth into tissue; finite element model; high temperature burns; quantitative value for injury; surface exposure; thermal analysis; thermal diffusion equation; thermal inertia; thermal interaction; time of exposure; tissue interaction; tissue substitute model; transient temperature gradients; Accidents; Biological materials; Humans; Injuries; Kinetic theory; Phase change materials; Predictive models; Temperature dependence; Temperature distribution; Tissue damage;
Conference_Titel :
[Engineering in Medicine and Biology, 1999. 21st Annual Conference and the 1999 Annual Fall Meetring of the Biomedical Engineering Society] BMES/EMBS Conference, 1999. Proceedings of the First Joint
Conference_Location :
Atlanta, GA
Print_ISBN :
0-7803-5674-8
DOI :
10.1109/IEMBS.1999.804448
