Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Novel ceramic forming method
The invention provides a novel ceramic forming method. The novel ceramic forming method comprises the following steps: step 1, burdening and ball-milling pulping; step 2, sieving and iron removal; step 3, homogenizing in a pulp tank; step 4, dehydrating the slurry into mud blocks; step 5, cutting the clods into large particles with the particle size of less than 2cm; 6, continuous pressing is conducted, and the large particles are directly pressed into a plate; step 7, cutting the plate into proper ceramic green bodies; and step 8, drying the ceramic body. In addition, the invention further provides a detailed implementation mode for the step 5. Compared with an existing integrated pulverizing and molding process, the production links of granulation, screening, rounding treatment and the like are omitted, so that the technological process is simplified, and the consumption of consumables is reduced; compared with a spray drying granulation and molding process, the method has the advantage that the total energy consumption in the ceramic molding process is greatly reduced.
本发明提供了一种新型陶瓷成型方法,包括步骤1,配料、球磨制浆;步骤2,过筛和除铁;步骤3,浆池均化;步骤4,浆料脱水成泥块;步骤5,将泥块切割成粒径小于2cm的大颗粒;步骤6,连续压制,直接将大颗粒压制成板材;步骤7,将板材切割成合适的陶瓷坯体;步骤8,对陶瓷坯体进行干燥处理。此外,本发明还针对步骤5提供了细化的实施方式。与现有的集成制粉加成型的工艺相比,本发明省略了造粒、筛分、磨圆处理等生产环节,从而简化了工艺流程,减少了耗材的消耗;与喷雾干燥造粒加成型的工艺相比,本发明大幅度降低了陶瓷成型过程的总能耗。
Novel ceramic forming method
The invention provides a novel ceramic forming method. The novel ceramic forming method comprises the following steps: step 1, burdening and ball-milling pulping; step 2, sieving and iron removal; step 3, homogenizing in a pulp tank; step 4, dehydrating the slurry into mud blocks; step 5, cutting the clods into large particles with the particle size of less than 2cm; 6, continuous pressing is conducted, and the large particles are directly pressed into a plate; step 7, cutting the plate into proper ceramic green bodies; and step 8, drying the ceramic body. In addition, the invention further provides a detailed implementation mode for the step 5. Compared with an existing integrated pulverizing and molding process, the production links of granulation, screening, rounding treatment and the like are omitted, so that the technological process is simplified, and the consumption of consumables is reduced; compared with a spray drying granulation and molding process, the method has the advantage that the total energy consumption in the ceramic molding process is greatly reduced.
本发明提供了一种新型陶瓷成型方法,包括步骤1,配料、球磨制浆;步骤2,过筛和除铁;步骤3,浆池均化;步骤4,浆料脱水成泥块;步骤5,将泥块切割成粒径小于2cm的大颗粒;步骤6,连续压制,直接将大颗粒压制成板材;步骤7,将板材切割成合适的陶瓷坯体;步骤8,对陶瓷坯体进行干燥处理。此外,本发明还针对步骤5提供了细化的实施方式。与现有的集成制粉加成型的工艺相比,本发明省略了造粒、筛分、磨圆处理等生产环节,从而简化了工艺流程,减少了耗材的消耗;与喷雾干燥造粒加成型的工艺相比,本发明大幅度降低了陶瓷成型过程的总能耗。
Novel ceramic forming method
新型陶瓷成型方法
LI JINHUA (Autor:in) / LIN QINGSHENG (Autor:in) / YAN WENJI (Autor:in) / HUANG JINRONG (Autor:in)
13.01.2023
Patent
Elektronische Ressource
Chinesisch
IPC:
C04B
Kalk
,
LIME
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