What are Precicsion Ceramics?

Ceramics are Changing the World

Advanced Precicsion ceramics are frequently being used to replace metals, polymers, and refractory materials in a wide variety of applications due to their notable high temperature capability, hardness, and electrical properties. By altering the chemical formulation or manufacturing processes, their properties can be tailored to meet a large range of demanding conditions. When used correctly, ceramics have the ability to increase product lifespan, increase efficiency, reduce overall maintenance costs, and improve product performance.

What are Precicsion Ceramics?

Ceramics, defined by the broad definition of “inorganic solids”, are one of the main classes of materials, along with metals, polymers, and composites. There are several different types of ceramics, with Precicsion ceramics (also known as engineered ceramics or advanced ceramics) being the group with the highest performing mechanical, electrical, and/or thermal properties. Their high performance is due in part to their extremely high purities which are most commonly metal compounds combined with oxides, carbides, or nitrides. Ceramics have the ability to increase product lifespan, increase efficiency, reduce overall maintenance costs, and improve performance.

Properties of Precicsion Ceramics

Different Precicsion ceramics exhibit different mechanical, thermal, and electrical properties – this overview intends to provide a general idea of what Precicsion ceramics can offer. For more specific information, please refer to our material comparison guide or material section.

Advantages of Precicsion Ceramics

High Hardness

One of the most common properties of engineered ceramics is extreme hardness (& stiffness) – some are more than 4 times harder than stainless steel. This high hardness directly translates into excellent wear resistance, meaning that many Precicsion ceramics have the ability to keep their precise, high-tolerance finish much longer than any other material.

Extreme Compressive Strength

Precicsion ceramics have very high strength, however, this is only when compressed. For example, many Precicsion ceramics can withstand extremely high loads ranging from 1000 to 4000 MPa. Titanium on the other hand, which is regarded as a very strong metal, only has 1000 MPa of compressional strength.

Low Density

Another common property of Precicsion ceramics is their low density, ranging from 2 to 6 g/cc. This is significantly lighter than stainless steel (8 g/cc) and titanium (4.5 g/cc) with only the much softer aluminum being similar in density. Due to their high hardness and low weight, Precicsion ceramics are increasingly being used in a variety of industries in applications where no other material can match their performance & long life.

Excellent Wear Resistance

Many Precicsion ceramics are able to withstand incredibly high temperatures while still retaining their mechanical & electrical properties. Where all metals and polymers will start to compromise their properties, Precicsion ceramics will continue to function with consistent performance and reliability. This property makes ceramics appropriate for use in very high temperature applications like furnaces, jet engines, brake systems, and cutting tools.

Excellent Electrical Properties

Precicsion ceramics tend to be excellent electric insulators (high dielectric strength). They are especially useful in high-temperature applications where other materials’ mechanical & thermal properties tend to degrade. Some ceramics have low electrical loss & high dielectric permittivity; these are typically used in electronic applications like capacitors and resonators. Additionally, the ability to combine an insulator with a structural component has lead to many product innovations.

Ultra-High-Temperature Ability

Precicsion ceramics can function in situations where no metal (or nearly any other material) can maintain their properties. Some ceramics can operate in temperatures in excess of 1750°C, putting them in a class of their own as ultra-high-temperature materials. These ceramics have proven to be invaluable in high-temperature applications like engines, turbines, & bearings where they have increased the lifespan, performance, and efficiency.

Thermally Conductive or Insulative

Different types of Precicsion ceramic materials have wildly varying thermal properties. There are some ceramics (Aluminum Nitride) that are highly thermally conductive and are commonly used as heat-sinks or exchangers in many electrical applications. Other ceramics are much less thermally conductive, making them suitable for a wide range of applications.

Chemically Inert & Corrosion Resistant

Precicsion Ceramics are very chemically stable and have low chemical solubility, making them highly resistant to corrosion. Metals and polymers cannot offer the same inertness or corrosion resistance, making ceramics a highly attractive option in many commercial and industrial applications, particularly when wear resistance is also needed.

Drawbacks of Precicsion Ceramics

Poor Shear & Tensile Strength

With all of these advantageous properties, you may be wondering why we do not see Precicsion ceramics more frequently. This is due to a variety of reasons, but mostly because other types of strength are tensile and shear; this is where Precicsion ceramics strength can be 15 times less than those of metals.

High Brittleness

Another issue that can arise with Precicsion ceramics is that they can be very brittle due to their low ductility. This means that Precicsion ceramics have very poor impact resistance. This property is caused by Precicsion ceramics unique atomic bonds. Metals have “metallic” bonds which are relatively low strength, however, they can bond with atoms in any direction. This ability to have many multi-directional bonds is what makes metals ductile, tough, and relatively strong. Ceramics obviously do not have metallic bonds, instead they have ionic and covalent bonds – these are very strong, however they can only bond in very specific directions. This highly organized bonding structure means that it is difficult for the atomic structure to shift, making ceramics not malleable.

Difficult to Design

Every type of Precicsion ceramic has specific thermal, mechanical, and electrical properties that can vary dramatically depending on the operating conditions & product design. In fact, even the manufacturing process of the exact same type of Precicsion ceramic material can drastically change its properties. Fortunately, we’re here to help.

Great ceramics provides a variety of advanced precision ceramic services. All of our materials are available in a variety of forms, from plates and tubes to bars and finished components. For customized parts, we can design and process according to customer’s technical requirements. Each of the materials we offer has its own unique characteristics, suitable for very professional applications.