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Ceramic materials are, now more than ever, in more demand. And as the demand for ceramics increase, the desired properties and choice of materials continue to change or improve. China Special Ceramic Parts, Inc. like alumina, zirconia, silicon carbide, aluminum nitride, silicon nitride possess specific properties that make them offer higher performance and more economic value compared to conventional alternatives like glass, metals, and plastics.
When selecting ceramics for any application, some properties are desired more than others. The same consideration is often true for types of materials. To adequately address the specific needs of unique applications, more and newer materials are constantly being developed and adapted to these applications.
This post will look at some of the essential properties and most preferred materials used in advanced ceramic applications and why they often make the top of the list.
Manufacturers usually prefer some ceramic materials over others because of their mechanical, electrical, thermal, chemical properties. Here are some of these materials:
Alumina is a versatile material that is suitable for a variety of applications, specifically because of its mechanical and electrical properties. Alumina finds application in:
Some of its outstanding properties include:
You can get alumina in many grades ranging from 60-99.9% with additives designed to enhance essential properties like wear resistance and dielectric strength. Alumina can be formed following many ceramic processing methods, and it can be processed further to yield material of different shapes and sizes. In addition to its attractive properties, alumina can be joined to other ceramic materials or metals to produce other high-performing ceramics. This process utilizes specialized metalizing and brazing techniques.
Aluminum nitride has a combination of interesting properties that make it one of the most preferred ceramics in engineering. Some of the attractive features of aluminum nitride include:
These properties make aluminum nitride (AlN) very useful in a variety of top applications, such as:
Other typical applications of AlN include heaters, IC packages, and heat sinks.
Zirconia has a combination of some fine properties that make it suitable for application in many systems. For instance, it has strong chemical resistance at a very high temperature of about 2400°C. This is far above the melting point of alumina. The corrosion resistance of zirconia is another desirable property that makes it even more helpful.
Here are some observed properties of zirconia:
Fully Stabilized Zirconia (FSZ) grades for crucibles, nozzles, and materials for more advanced applications can now be manufactured because of the high-temperature capability of zirconia products.
Silicon nitride is another example of high-performance ceramics used in many applications today. Some of its properties include:
Silicon nitride’s low thermal expansion coefficient provides good thermal shock resistance, making it a preferred choice among many other materials. It is usually available in three different variants:
Silicon nitride is typically used in:
There are a few properties that people look out for when choosing ceramics to work with. Here are some other considerations that are typically factored into ceramic manufacturing processes:
The next most important consideration is the shape of the material selected. Some shapes can cause weakness in the component, while others, such as simple shoes, can provide the best results.
For some applications, we may need to join a ceramic to metal. In such situations, brazing is usually used. Different kinds of metals can be added to ceramic materials by using this technique.
Although brazing happens to be used more, other metalizing methods include mechanical fasteners, friction welding, and adhesive bonding. This is because brazing is the most widely used and effective method for creating leak-tight, robust joints between ceramic and metals.
For specific applications, metal feedthrough can be produced. Flow meters can be introduced by placing a wire in the ceramic in the pre-sintered or green stage. The ceramic shrinks during the sintering process, compressing the metal and forming a gas-tight seal.
The parts of a finished product can be coated or glazed to make it better. This allows for the roughness in the product to be smoothed out. This is especially necessary when the grain size of the finished product is significant. This rough finish can lead to the formation of cavities after the grinding—coating and glazing help achieve an excellent surface finish.
Just as we already highlighted above, several factors influence the choice of material from which ceramic components are manufactured. In general, you want to focus on the application and the performance requirements based on the physical and chemical properties discussed above.