Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Low-light micro-mold ceramic rock plate and preparation method thereof
The invention discloses a low-light micro-mold ceramic rock plate and a preparation method thereof. The preparation method comprises the following steps: preparing a green body, and applying ground glaze to the green body; spraying deep ink; spraying cover glaze; after color design, digital protection glaze is sprayed; performing cold isostatic pressing treatment; and sintering in a kiln, immersing in a sodium nitrate solution, and finally cleaning and drying to obtain the low-light micro-mold ceramic rock plate. The cold isostatic pressing treatment is beneficial to opening agglomeration of powder so as to remove pores, so that the ceramic material has higher density, and excellent skid resistance and wear resistance are obtained; after being fired, the ceramic rock plate is immersed in a sodium nitrate solution, molecules on the surface of the ceramic rock plate are enabled to move, the hardness is improved, meanwhile, the molecules are more uniform in arrangement and better in dispersity, the ceramic rock plate is transparent and bright and has excellent glossiness, the wear resistance is further improved, and molecules at uneven positions generated when bubbles are extruded through cold isostatic pressing treatment are uniformly dispersed, so that the wear resistance is improved. The treatment effects are synergistic.
本发明公开了一种微光微模陶瓷岩板及制备方法,所述制备方法包括:制备生坯,生坯上施底釉;喷深刻墨水;喷面釉;颜色设计后,喷数码保护釉;冷等静压处理;在窑炉烧成后浸入硝酸钠溶液中,最后清洗烘干即得本发明微光微模陶瓷岩板。所述冷等静压处理有助于打开粉末的团聚从而排除气孔,使陶瓷材料具备更高的致密度、从而获得出色的防滑和耐磨性能;烧制后浸入硝酸钠溶液使陶瓷岩板表面的分子活动,提升硬度的同时,分子排布更均匀,分散性更佳,使得陶瓷岩板透亮、具有优异的光泽度,也进一步提高耐磨性能,并将冷等静压处理挤出气泡时产生不平整的位置的分子分散均匀,处理效果相协同。
Low-light micro-mold ceramic rock plate and preparation method thereof
The invention discloses a low-light micro-mold ceramic rock plate and a preparation method thereof. The preparation method comprises the following steps: preparing a green body, and applying ground glaze to the green body; spraying deep ink; spraying cover glaze; after color design, digital protection glaze is sprayed; performing cold isostatic pressing treatment; and sintering in a kiln, immersing in a sodium nitrate solution, and finally cleaning and drying to obtain the low-light micro-mold ceramic rock plate. The cold isostatic pressing treatment is beneficial to opening agglomeration of powder so as to remove pores, so that the ceramic material has higher density, and excellent skid resistance and wear resistance are obtained; after being fired, the ceramic rock plate is immersed in a sodium nitrate solution, molecules on the surface of the ceramic rock plate are enabled to move, the hardness is improved, meanwhile, the molecules are more uniform in arrangement and better in dispersity, the ceramic rock plate is transparent and bright and has excellent glossiness, the wear resistance is further improved, and molecules at uneven positions generated when bubbles are extruded through cold isostatic pressing treatment are uniformly dispersed, so that the wear resistance is improved. The treatment effects are synergistic.
本发明公开了一种微光微模陶瓷岩板及制备方法,所述制备方法包括:制备生坯,生坯上施底釉;喷深刻墨水;喷面釉;颜色设计后,喷数码保护釉;冷等静压处理;在窑炉烧成后浸入硝酸钠溶液中,最后清洗烘干即得本发明微光微模陶瓷岩板。所述冷等静压处理有助于打开粉末的团聚从而排除气孔,使陶瓷材料具备更高的致密度、从而获得出色的防滑和耐磨性能;烧制后浸入硝酸钠溶液使陶瓷岩板表面的分子活动,提升硬度的同时,分子排布更均匀,分散性更佳,使得陶瓷岩板透亮、具有优异的光泽度,也进一步提高耐磨性能,并将冷等静压处理挤出气泡时产生不平整的位置的分子分散均匀,处理效果相协同。
Low-light micro-mold ceramic rock plate and preparation method thereof
一种微光微模陶瓷岩板及制备方法
QUAN CHUNHUI (Autor:in) / FANG GUIXI (Autor:in)
12.12.2023
Patent
Elektronische Ressource
Chinesisch
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