Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
High-hardness domestic ceramic and production method thereof
The invention relates to the technical field of ceramic production, and provides a high-hardness domestic ceramic and a production method thereof.The high-hardness domestic ceramic comprises a blank and glaze, the blank is prepared from 40-50 parts of kaolin, 20-35 parts of quartz, 10-15 parts of magnesian minerals, 10-15 parts of aluminum oxide, 10-15 parts of bentonite and the like, and the glaze is prepared from the raw materials of the blank and the glaze; the glaze comprises the following raw materials: 10-20 parts of magnetic powder, 1-8 parts of spodumene, 5-10 parts of quartz and the like. The production method comprises the following steps: raw material selection, water washing, raw material proportioning and grinding, slurry grinding, slurry discharging, molding, trimming and brushing, sintering, semi-finished product sorting, polishing, glazing, secondary sintering, sorting and warehousing. The secondarily sintered ceramic glaze is tightly combined with the surface of the ceramic to form a firm coating, so that the ceramic is more durable and can resist scraping, abrasion and corrosion of chemical substances, the abundant effect of the surface of the ceramic can be realized in the secondary sintering process, different glaze effects can be obtained by controlling the temperature and the time, and the service life of the ceramic is prolonged. Therefore, different market demands and consumer preferences can be satisfied.
本申请涉及陶瓷生产技术领域,提供了一种高硬度日用陶瓷及其生产方法,该高硬度日用陶瓷,包括坯料和釉料,所述坯料包括高岭土40‑50份、石英20‑35份、镁质矿物10‑15份、氧化铝10‑15份、膨润土10‑15份等原料组成,所述釉料包括磁粉10‑20份、锂辉石1‑8份、石英5‑10份等原料组成,其生产方法包括以下步骤:原料检选、水洗、原料配比入磨、磨浆、放浆、成型、修刷、烧成、半成品拣选、磨光、施釉、二次烧成、拣选入库。通过二次烧成的陶瓷釉料与陶瓷表面结合紧密,形成坚固的涂层,这使得陶瓷更加耐久,能够抵抗刮擦、磨损和化学物质的侵蚀,二次烧成过程可以实现陶瓷表面的丰富效果,通过控制温度和时间,可以获得不同的釉料效果,以满足不同市场需求和消费者偏好。
High-hardness domestic ceramic and production method thereof
The invention relates to the technical field of ceramic production, and provides a high-hardness domestic ceramic and a production method thereof.The high-hardness domestic ceramic comprises a blank and glaze, the blank is prepared from 40-50 parts of kaolin, 20-35 parts of quartz, 10-15 parts of magnesian minerals, 10-15 parts of aluminum oxide, 10-15 parts of bentonite and the like, and the glaze is prepared from the raw materials of the blank and the glaze; the glaze comprises the following raw materials: 10-20 parts of magnetic powder, 1-8 parts of spodumene, 5-10 parts of quartz and the like. The production method comprises the following steps: raw material selection, water washing, raw material proportioning and grinding, slurry grinding, slurry discharging, molding, trimming and brushing, sintering, semi-finished product sorting, polishing, glazing, secondary sintering, sorting and warehousing. The secondarily sintered ceramic glaze is tightly combined with the surface of the ceramic to form a firm coating, so that the ceramic is more durable and can resist scraping, abrasion and corrosion of chemical substances, the abundant effect of the surface of the ceramic can be realized in the secondary sintering process, different glaze effects can be obtained by controlling the temperature and the time, and the service life of the ceramic is prolonged. Therefore, different market demands and consumer preferences can be satisfied.
本申请涉及陶瓷生产技术领域,提供了一种高硬度日用陶瓷及其生产方法,该高硬度日用陶瓷,包括坯料和釉料,所述坯料包括高岭土40‑50份、石英20‑35份、镁质矿物10‑15份、氧化铝10‑15份、膨润土10‑15份等原料组成,所述釉料包括磁粉10‑20份、锂辉石1‑8份、石英5‑10份等原料组成,其生产方法包括以下步骤:原料检选、水洗、原料配比入磨、磨浆、放浆、成型、修刷、烧成、半成品拣选、磨光、施釉、二次烧成、拣选入库。通过二次烧成的陶瓷釉料与陶瓷表面结合紧密,形成坚固的涂层,这使得陶瓷更加耐久,能够抵抗刮擦、磨损和化学物质的侵蚀,二次烧成过程可以实现陶瓷表面的丰富效果,通过控制温度和时间,可以获得不同的釉料效果,以满足不同市场需求和消费者偏好。
High-hardness domestic ceramic and production method thereof
一种高硬度日用陶瓷及其生产方法
WANG TIANFENG (Autor:in) / WANG YOUZHI (Autor:in) / WANG JIANXIN (Autor:in)
08.12.2023
Patent
Elektronische Ressource
Chinesisch
IPC:
C04B
Kalk
,
LIME
High-hardness domestic ceramic and production process thereof
| Europäisches Patentamt | 2021
| Europäisches Patentamt | 2020