Showing 3 results for N. Setoudeh
N. Setoudeh, A. Saidi, A. Shafyei and N. J. Welham,
Volume 25, Issue 1 (7-2006)
Abstract
Anatase-to-rutile phase transformation was studied in milled and unmilled samples. Ball milling was carried out in two types of ball mills, planetary and tumbler, with a ball-to-powder ratio of 40:1 over 2-48 hours. First, the unmilled samples
were heated in the furnace at various temperatures for different periods of time. The results revealed that the anatase-to-rutile transformation completed at 980 after 48 hours. The rate of transformation in milled samples was greatly higher than that of unmilled ones. Activation energy in unmilled samples was about 440 kj/mol. The rate of transformation in the planetary ball mill was higher than that in tumbler mill. In the former, transformation almost finished after 16 hours of milling while in the lattar, it did not finish even after 48 hours. XRD results revealed that the transformation proceeds through an intermediate srilankite phase in all milled samples. However, srilankite was not observed in the unmilled samples.
N. Setoudeh, A. Saidi, A. Shafyei and N.j. Welham,
Volume 27, Issue 2 (1-2009)
Abstract
N. Setoudeh,
Volume 32, Issue 2 (Dec 2013)
Abstract
A powder mixtures of 18.72% wt, 17.67% wt Al2O3 and 63.6% wt zircon were prepared and milled in a planetary ball milled for one up to 10 hours in presence of air. After removal Iron impurity from as-milled samples, they were isothermally heated in temperature range of 1300-1450 0C for one hour in an air atmosphere. After cooling the samples, they were studied using XRD analyses. The XRD and PSA analyses were showed that the size of particles in the mixtures decreased with increasing of milling time and the mixtures became amorphous nature. The isothermal runs observed that pre-milling on the mixtures has great effect, wherever the zircon decomposition temperature and mullite formation temperature decreased to about 1300 0C in a one-hour-milled sample. The amount of tetragonal zirconia increased with increasing in milling time at 1300 0C, however the amount of tetragonal zirconia decreased with increasing of temperature up to 1450 0C. The amount of tetragonal zirconia at 1300 0C in the three hours milled samples was the highest value among all samples.
