Study of the Synthesis Variables in the Preparation of CoAl2O4 Pigment Using Microwaves to Reduce Energetic Consumption

Guillermo Paulo-Redondo, Isaac Nebot-Díaz
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Abstract

Due to the importance of optimizing the manufacture of ceramic pigments, motivated by the increase in prices of both raw materials and energy, and the need to control manufacturing parameters to obtain optimal conditions for the preparation of ceramic inks, two synthesis routes (traditional route and coprecipitation) and two calcination methods (traditional oven and microwave oven) are proposed to obtain the blue ceramic pigment CoAl2O4 with the aim of minimizing the use of mineralizers or flux agents and reducing energy consumption in its manufacturing. The pigments prepared were characterized by thermal analysis and structurally by XRD and SEM, with particle sizes below 300 nm observed. Finally, the colorimetric coordinates of glazed tiles with the pigments obtained were characterized. In all cases, the microwave-assisted synthesis increased the color intensity, considerably decreasing the temperature and calcination time, obtaining a particle size under 300 nm with a very narrow size distribution, and substantially improving the energy cost of its preparation and the color development of the final product. The viability of the combination of synthesis by coprecipitation and microwave calcination as a method of industrial preparation of ceramic pigments has been demonstrated.
微波制备低能耗煤粉颜料合成参数的研究
由于原材料和能源价格的上涨,以及需要控制制造参数以获得陶瓷油墨制备的最佳条件,因此优化陶瓷颜料制造的重要性,提出了两种合成路线(传统路线和共沉淀法)和两种煅烧方法(传统炉法和微波炉法)来制备蓝色陶瓷颜料CoAl2O4,以减少矿化剂或助熔剂的使用,降低其生产过程中的能耗。通过热分析、XRD和SEM对所制得的颜料进行了结构表征,所制得的颜料粒径均小于300 nm。最后,用所获得的颜料对釉面砖的比色坐标进行了表征。在所有情况下,微波辅助合成提高了颜色强度,大大降低了温度和煅烧时间,获得了300 nm以下的粒径,并且粒径分布非常窄,并且大大提高了其制备的能量成本和最终产品的显色性。实验证明了共沉淀法与微波煅烧法相结合作为陶瓷颜料工业制备方法的可行性。
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