Journal of the American Ceramic Society, Vol.86, No.5, 765-768, 2003
Quantitative analysis of zinc vaporization from manganese zinc ferrites
Zinc vaporization of Mn-Zn ferrites was quantitatively characterized in terms of oxygen partial pressure PO2 temperature, grain size and sample geometry. The amount of zinc loss was measured as a function of time at various temperatures by a thermogravimetric method. The weight loss due to irreversible zinc vaporization showed a linear behavior with time and increased exponentially with temperature. The observed weight loss due to zinc evaporation at 1100degreesC was small, whereas a significant weight change was detected at 1200degreesC. The weight loss was even greater in a reducing atmosphere (P-O2 = 5 x 10(-5)). Below 1300degreesC, the diffusion of elemental zinc was sufficiently fast to compensate the zinc loss at the interface region, resulting in a linear dependence on time. At temperatures greater than or equal to1400degreesC, the weight change no longer followed the linear dependence and showed a rather parabolic behavior with a concave upward slope. The core shape and the gas flow around ferrite cores were important factors that affected the rate of zinc vaporization, but not the grain size.