Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Argil for high temperature-resistant and microwave-resistant ceramic baking pans and production process for argil
The invention discloses argil for high temperature-resistant and microwave-resistant ceramic baking pans and a production process for the argil. The argil is produced by Chaozhou loess, Dehua hargil, Dehua umber and Dehua kaolin by mass percent; the production process for the argil comprises the following steps: putting the raw materials in a ball mill in proportion; fully grinding; filtering through a screen, and then, putting into a large-sized slurry storage tank for souring; pressing into mud cakes through a filter press; stacking the mud cakes on a pallet for souring for 1 month for use; then, drawing off air through a pug mill, and refining for multiple times by the pug mill. The argil for the high temperature-resistant and microwave-resistant ceramic baking pans is simple in component and reasonable in proportion; by utilizing the argil disclosed by the invention to fire the ceramic baking pans, the firing temperature of the argil only needs to be at 1130 to 1170 DEG C; the firing temperature of the argil is reduced greatly in comparison with the firing temperature of the raw materials for common ceramic baking pans, so that the argil is low in energy consumption and low in cost; moreover, the fired ceramic baking pans are high in hardness, resistant to high temperature and microwaves, good in quality and not easy to damage.
Argil for high temperature-resistant and microwave-resistant ceramic baking pans and production process for argil
The invention discloses argil for high temperature-resistant and microwave-resistant ceramic baking pans and a production process for the argil. The argil is produced by Chaozhou loess, Dehua hargil, Dehua umber and Dehua kaolin by mass percent; the production process for the argil comprises the following steps: putting the raw materials in a ball mill in proportion; fully grinding; filtering through a screen, and then, putting into a large-sized slurry storage tank for souring; pressing into mud cakes through a filter press; stacking the mud cakes on a pallet for souring for 1 month for use; then, drawing off air through a pug mill, and refining for multiple times by the pug mill. The argil for the high temperature-resistant and microwave-resistant ceramic baking pans is simple in component and reasonable in proportion; by utilizing the argil disclosed by the invention to fire the ceramic baking pans, the firing temperature of the argil only needs to be at 1130 to 1170 DEG C; the firing temperature of the argil is reduced greatly in comparison with the firing temperature of the raw materials for common ceramic baking pans, so that the argil is low in energy consumption and low in cost; moreover, the fired ceramic baking pans are high in hardness, resistant to high temperature and microwaves, good in quality and not easy to damage.
Argil for high temperature-resistant and microwave-resistant ceramic baking pans and production process for argil
CHEN JINGUI (Autor:in)
30.12.2015
Patent
Elektronische Ressource
Englisch
IPC:
C04B
Kalk
,
LIME
| Europäisches Patentamt | 2015
Argil additive and ceramic product prepared from same
| Europäisches Patentamt | 2024