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High-efficiency ceramic slurry preparation process
The invention discloses a high-efficiency ceramic slurry preparation process. The process comprises the following steps of classifying ceramic slurry raw materials into a hard barren raw material, a semi-barren semi-plastic raw material and a soft plastic raw material, wherein the semi-barren semi-plastic raw materials comprise a ball feeding raw material A and a slurrying raw material B, and thesoft plastic raw materials comprise a ball feeding raw material C and a slurrying raw material D, jointly puting the hard barren raw material, the ball feeding raw material A and the ball feeding rawmaterial C into a ball mill for ball milling, and acquiring ball-milled slurry, jointly puting the slurrying raw material B and the slurrying raw material D into a slurrying pool, adding water, stirring, and acquiring slurrying, and transferring the ball-milled slurry and the slurrying slurry to a mixing tank, and uniformly mixing to obtain mixed slurry. A large amount of ball milling time is saved in the whole preparation process, energy consumption is effectively reduced, and the production efficiency is greatly improved. And in the preparation process, multiple times of detection and debugging are carried out, so that the debugging difficulty of the slurry is reduced, and the slurry with accurate indexes can be obtained more easily.
本发明公开了一种高效率的陶瓷泥浆制备工艺,包括以下步骤:陶瓷泥浆原料分类为:硬质瘠性原料、半瘠性半可塑性原料和软质可塑性原料;半瘠性半可塑性原料包括入球原料A和化浆原料B;软质可塑性原料包括入球原料C和化浆原料D;将硬质瘠性原料、入球原料A和入球原料C共同投入球磨机中进行球磨,得到球磨泥浆;将化浆原料B和化浆原料D共同投入化浆池并加水搅拌,得到化浆泥浆;将球磨泥浆和所述化浆泥浆转移至混合池,混合均匀,得到混合泥浆。整个制备过程节省了大量的球磨时间,有效减少能量消耗,使生产效率大幅度提升。而且在制备过程中,进行了多次的检测和调试,减轻了浆料调试的难度,更有利于获得指标精准的浆料。
High-efficiency ceramic slurry preparation process
The invention discloses a high-efficiency ceramic slurry preparation process. The process comprises the following steps of classifying ceramic slurry raw materials into a hard barren raw material, a semi-barren semi-plastic raw material and a soft plastic raw material, wherein the semi-barren semi-plastic raw materials comprise a ball feeding raw material A and a slurrying raw material B, and thesoft plastic raw materials comprise a ball feeding raw material C and a slurrying raw material D, jointly puting the hard barren raw material, the ball feeding raw material A and the ball feeding rawmaterial C into a ball mill for ball milling, and acquiring ball-milled slurry, jointly puting the slurrying raw material B and the slurrying raw material D into a slurrying pool, adding water, stirring, and acquiring slurrying, and transferring the ball-milled slurry and the slurrying slurry to a mixing tank, and uniformly mixing to obtain mixed slurry. A large amount of ball milling time is saved in the whole preparation process, energy consumption is effectively reduced, and the production efficiency is greatly improved. And in the preparation process, multiple times of detection and debugging are carried out, so that the debugging difficulty of the slurry is reduced, and the slurry with accurate indexes can be obtained more easily.
本发明公开了一种高效率的陶瓷泥浆制备工艺,包括以下步骤:陶瓷泥浆原料分类为:硬质瘠性原料、半瘠性半可塑性原料和软质可塑性原料;半瘠性半可塑性原料包括入球原料A和化浆原料B;软质可塑性原料包括入球原料C和化浆原料D;将硬质瘠性原料、入球原料A和入球原料C共同投入球磨机中进行球磨,得到球磨泥浆;将化浆原料B和化浆原料D共同投入化浆池并加水搅拌,得到化浆泥浆;将球磨泥浆和所述化浆泥浆转移至混合池,混合均匀,得到混合泥浆。整个制备过程节省了大量的球磨时间,有效减少能量消耗,使生产效率大幅度提升。而且在制备过程中,进行了多次的检测和调试,减轻了浆料调试的难度,更有利于获得指标精准的浆料。
High-efficiency ceramic slurry preparation process
一种高效率的陶瓷泥浆制备工艺
YAO JINLONG (author) / YANG LIXIN (author)
2020-12-18
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
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