How much do you know about the production process of industrial ceramics?
Release time:
2021-08-26
With the continuous development and changes in China's high-tech technology, the development of industrial ceramics has also made groundbreaking progress, especially the research and development of multi-component composite ceramics and nanostructured ceramic products. Titanium aluminate ceramic titanium oxide compound synthetic ceramic material. The melting point is 1860℃, belonging to the orthorhombic system. Alumina ceramic is a ceramic material mainly composed of alumina, used in thick-film integrated circuits. Alumina ceramics have good conductivity, mechanical strength, and high-temperature resistance. It should be noted that ultrasonic cleaning is required. Porous stones have shapes; one is a grotesque rock, resembling a monster, with holes all over its body. Industrial ceramics are a type of fine ceramics, which can make full use of mechanical, electronic, thermal, and chemical functions in applications. So, how much do you know about the industrial ceramic production process? Below, the staff of Xinhan Sheng factory will give a detailed introduction:
The key steps in industrial ceramic production include raw material preparation before shaping, shaping, sintering, and post-production and processing of the workpiece.
1. Preparation before shaping
A is the use of physical and chemical methods to process granular materials to obtain the required specifications of powder equipment; then, according to the composition of the ceramic material, various raw materials are weighed and proportioned, and then, according to different molding methods, mixed into different forms of preforms.
2. Forming
Forming is the process of shaping the preform into a workpiece with a certain shape and size. Available methods include: wet pressing, slip casting, compression molding, injection molding, hot pressing, isostatic pressing, plastic deformation molding, continuous molding, etc.
3. Sintering
Sintering is the process of heating the workpiece below its melting point, using chemical transfer to bond the internal powder, achieving high density and high toughness.
4. Post-production processing
After the ceramic is shaped and sintered, it can be further processed according to the needs of the enterprise to meet the precision requirements of roughness, shape, and size, such as cutting processing, grinding and polishing, ultrasonic processing, laser cutting, and even drilling processing.
The above is a detailed introduction to the industrial ceramic production process. Industrial ceramics have a series of advantages such as heat resistance, corrosion resistance, wear resistance, and wash resistance, and can replace metal and polymer materials in harsh working environments. They have become an indispensable key material in traditional industrial production upgrading, new industries, and high-tech, with broad application prospects in the fields of power energy, aerospace, machinery, vehicles, electronics, and chemical industry.
