References
- CUONO, C. B., 1980, Early management of severe thermal injury. Surgical Clinics of North America, 60, 1021–1033.
- MINISTRY OF MANPOWER, 1999, http://www.gov.sg/mom/dis/acc-tl.html.
- HENRIQUES Jr, F. C., and MORITZ, A R., 1947, Studies of thermal injury: I. The conduction of heat to and through skin and the temperatures attained therein. A theoretical and an experimental investigation. American Journal of Pathology, 23, 531–549.
- HENRIQUES JR, F. C., 1947, Studies of thermal injuries V. The predictability and the significance of thermally induced rate processes leading to irreversible epidermal injury. Archives of Pathology, 43, 489–502.
- BUETTNER, K., 1951, Effects of extreme heat and cold on human skin, I. Analysis of temperature changes caused by different kinds of heat application. Journal of Applied Physiology, 3, 691–702.
- BUETTNER, K., 1951, Effects of extreme heat and cold on human skin, II. Surface temperature, pain and heat conductivity in experiments with radiant heat. Journal of Applied Physiology, 3, 703–713.
- STOLL, AM, and WEAVER, J. A, 1969, Mathematical model of skin exposed to thermal radiation. Aerospace Medicine, 40, 24–30.
- STOLL A M, and CHIANTA M. A, 1970, Heat transfer through fabrics as related to thermal injury. Annals of the New York Academy of Science, 33, 649–670.
- TAICATA, A N., 1974, Development of criterion for skin burns. Aerospace Medicine, 45, 634–637.
- DILLER, K. R., and HAYES, L. J., 1983, A finite element model of burn injury in blood perfused skin. Journal of Biomechanical Engineering, 105, 300–307.
- TORVI, D. A, and DALE, J. D., 1994, A finite element model of skin subjected to a flash fire. ASME Journal of Biomechanical Engineering, 116, 250–255.
- LAWCON, B., 1994, Heat dose to produce skin burns in humans. ASME Fundamentals of Biomedical Heat Transfer, HTD-295, 31–45.
- DILLER, K. R., 1998, Modeling thermal skin burns on a personal computer. Journal of Burn Care and Rehabilitation, 19, 420–429.
- DILLER, K. R., 1999, Development and solution of finite-difference equations for burn injury with spreadsheet software. Journal of Burn Care and Rehabilitation, 20, 25–32.
- DILLER, K. R, 1985, Analysis of skin burns. Heat Transfer in Medicine and Biology, Vol. 1, Analysis and Applications, edited by A Shitzer and R. C. Elberhart (New York: Plenum Press), pp. 85–134.
- PENNES, H. H., 1948, Analysis of tissue and arterial blood temperatures in resting human forearm. Journal of Applied Physiology, 1, 93–122.
- CARSLAW, H. S., and JAEGER, J. C., 1959, Conduction of Heat in Solids, 2nd edition (Oxford: Clarendon Press).
- DILLER, K. R, HAYES, L. J., and BAXTER, C. R, 1983, A mathematical model for the thermal efficacy of cooling therapy for burns. Journal of Burn Care & Rehabilitation, 4, 81–89.
- STOLL, A M, 1969, Heat transfer in biotechnology. Advances in Heat Transfer, Vol. 4, edited by J. P. Hartnett and T. F. Irvine Jr (NewYork: Academic Press), pp. 65–141.
- ORGILL, D. P., SOLARI, M G., and O'CONNOR, N. E., 1998, A finite-element model predicts thermal damage in cutaneous contact burns. Journal of Burn Care Rehabilitation, 19, 203–209.
- DILLER, K. R., and KLUTKE, G. A, 1993, Accuracy analysis of the Henriques model for predicting thermal burn injury. Advances in Bioheat and Mass Transfer, edited by R. B. Roemer (New York: ASME), pp. 117–123.