Results have shown that organic pig

Results have shown that organic pigment physicochemical constitution and solid-state properties can have a marked influence on particle size, particle size distribution and color reproduction of a color printing toner. The results show that the cubic model illustrated a good fit for yellow and magenta toner (R2 = 0.9635, 0.9086, respectively), but none of the various models fit the blue toner data. For the yellow toner, in addition to mixing time and agitation speed, the quadratic terms of agitation speed were also significant and, for magenta toner, only agitation speed was important. It appears that increasing the mixing time or agi- tation speed alone is not always a good option to obtain a smaller particle size and at a higher agitation speed (2000 rpm) and mix- ing time (8 h), non-linear variation occurred. Optimal conditions for cyan, magenta, and yellow toner production were also pre- dicted. The two optimal processing conditions for cyan toner were
7 h at 500 rpm and 3.18 h at 1600 rpm. For magenta toner, it was
4 h and 1200 rpm, and for yellow toner it was 6 h at 1500 rpm. As expected, the thermal properties of color toners were not affected by the change in production parameters, but the circularity of ton- ers changed from 0.3 to 0.8 in response to variations in mixing time and agitation speed.