What is ceramic parts?
The application of ceramic parts in which areas need to make what improvements
Ceramic parts have broad application prospects in aerospace manufacturing because of their advantages of high strength, low density, high temperature resistance and corrosion resistance. The transmission and control of ceramic parts have long life cycle, high cost, dependence on the cradle and difficulty in creating adulterated structures, which greatly controls the application of ceramic parts in some industries.
The importance of product quality and precision to ceramic parts sintering manufacturers is self-evident, and particular attention should be paid to details in the production process. To achieve real finishing. Ceramic parts processing manufacturers should keep in mind product quality. Elements of drawing dimensioning, diameter, diameter and semicircle size, section for square structure, chamfering, thread, light hole, sink hole, thread hole, slot dimensioning method, equal distance chain dimensioning, etc., with further understanding of drawings, text and drawing examples let us learn more intuitively, combined with examples in the work, the quality of the product will be better and better.
What are the common materials for ceramic parts?
1, alumina ceramics
2, zirconia ceramics
3. Silicon nitride ceramics
Silicon nitride ceramics are mainly used in high temperature materials, it has a good high temperature strength, common efficiency turbine engine parts, internal combustion engine parts, cutting tools, ceramic bearings, refractories, etc., are inseparable from this useful precision ceramic parts.
4, silicon carbide ceramics
Oxide ceramics and metal materials can not be used in high temperature environments, but non-oxide ceramics can do so, because the thermal conductivity of silicon carbide is higher than other ceramic materials, it is suitable for application in high temperature heat exchangers, recovery of factory exhaust gas or waste water contained in the heat.
Characteristics of ceramic parts
First, strong wear resistance
Ceramic materials have the characteristics of high hardness, low friction coefficient, smooth surface, etc., so its wear resistance is strong, and it can be used for a long time in a high-speed, high-load environment without wear.
Second, good corrosion resistance
Ceramic materials have good chemical inertia and corrosion resistance, strong resistance to corrosive media such as acid and alkali, and are not easily subjected to chemical corrosion and oxidative corrosion.
Third, high temperature stability
Ceramic materials have good stability and durability in high temperature environments, and can operate for a long time at a high temperature of 800 degrees to 1600 degrees, without deformation, failure and other phenomena.
Four, good insulation
Ceramic material has good insulation performance, can avoid electric and magnetic field interference, will not lead to electromagnetic wave generation, has good electrical insulation characteristics.
Five, strong sealing
Because ceramic materials have the characteristics of high hardness, high compression resistance, low thermal expansion coefficient, etc., it has been widely used in the field of sealing, which can ensure strong sealing and is not easy to leak.
Six. Low coefficient of thermal expansion
The coefficient of thermal expansion of ceramic materials is very low, which can ensure that there will be no deformation or fracture at high temperature, so it is widely used in high temperature hard environment.
In short, ceramic parts have the above excellent characteristics, so they have been widely used in electronics, ceramic products, machinery manufacturing and other fields.
Industrial precision ceramic parts processing is a manufacturing process that utilizes advanced technology to make high-quality ceramic parts suitable for a wide range of applications, and is a key step in the manufacture of a wide range of products such as electronic components, medical devices and aerospace parts. This machining process involves the use of specialized equipment and skilled technicians to ensure that the parts meet the required precision, tolerance and consistency specifications. There are many types of machining methods for ceramic parts, each with its own unique advantages and disadvantages.