D. Pananakis et Dc. Watts, Incorporation of the heating effect of the light source in a non-isothermal model of a visible-light-cured resin composite, J MATER SCI, 35(18), 2000, pp. 4589-4600
Recent non-isothermal reaction rate models of light cured resins presented
by various researchers do not take into account the increase of the tempera
ture due to the absorption and scattering of light energy within the resin.
However, the reaction rate is a strong function of temperature and hence a
ll the calculations performed not adopting this factor are not revealing th
e true characteristics of the cure process. In this work, the heating effec
t of the light source is calculated from simple DSC measurements commonly p
erformed after the initial cure of the specimens is recorded. An additional
deconvolution procedure of these irradiant heat flow measurements is also
presented as well as numerical results from a simple two dimensional model
illustrating the differences that result from the inclusion of this paramet
er in the non-isothermal calculations. (C) 2000 Kluwer Academic Publishers.